2021

[1] Da Zhang, David Barral, Yin Cai, Yanpeng Zhang, Min Xiao, and Kamel Bencheikh, “Hierarchy of Nonlinear Entanglement Dynamics for Continuous Variables”, Phys. Rev. Lett. 127(15), 150502 (2021).

[2] Jinyang Li, Jianfeng Zhu, Muhammad Imran, Huanrong Fan, Anas Mujahid, Faisal Nadeem, Peng Li, and Yanpeng Zhang, “Superior atomic coherence time controlled by crystal phase transition and optical dressing”, Opt. Lett. 47(9), 2310-2313(2022).

[3] Kangkang Li, Yuan Zhao, Yisha Qin, Zhili Chen, Yin Cai, and Yanpeng Zhang, “Optical precursors in the shaped temporal correlations of biphoton”, Adv. Photonics Research 2, 2100073 (2021).

[4] Kangkang Li, Sifan Li, Changbiao Li, Yin Cai, Feng Li, and Yanpeng Zhang, “Dressing-shaped Rabi oscillation of photon pairs in hot atomic ensemble”, Adv. Quantum Technol. 4(2), 2000098 (2021).

[5] Da Zhang, Yin Cai, Zhan Zheng, David Barral, Yanpeng Zhang, Kamel Bencheikh, and Min Xiao, “Non-Gaussian nature and entanglement of Spontaneous Parametric Nondegenerate Triple-Photon Generation”, Phys. Rev. A 103, 013704 (2021).

[6] Faizan Raza, Tian Dong, Peng Li, Habib Ullah, Huanrong Fan, and Yanpeng Zhang, “Phase transition of YPO4 crystals induced splitting of 5D0→7F1 of doped Eu3+ ions”, J. Lumin. 229, 117702 (2021).

[7] Da Zhang, Irfan Ahmed, Changbiao Li, and Yanpeng Zhang, “Genuine quadripartite continuous-variable entanglement in symmetric cascaded four-wave mixing process”, Ann. Phys. (Berlin) 533(2), 2000460 (2021).

[8] Huanrong Fan, Faizan Raza, Irfan Ahmed, Kangkang Li, Habib Ullah, and Yanpeng Zhang, “Corrigendum: Three-type Fano interference controlled by the phase transition of Eu3+/ Pr3+: YPO4 (2020 New J. Phys. 22 093008)”, New J. Phys. 23(3), 039502 (2021).

[9] Xiaoxuan Luo, Yin Cai, Yongsheng Wang, Zaoyu Chen, Fu Liu, Lei Zhang, Yanpeng Zhang, and Feng Li, “Fully deterministic analysis on photonic whispering-gallery modes of irregular polygonal microcavities with testing in hexagons”, Phys. Rev. A 103, L031503 (2021).

[10] Zhaoyang Zhang, Yutong Shen, Shaohuan Ning, Shun Liang, Yuan Feng, Changbiao Li, Yanpeng Zhang, and Min Xiao, “Transport in a moving photonic lattice via atomic coherence”, Opt. Lett. 46(17), 4096-4099 (2021).

[11] Sifan Li, Yufeng Li, Siqi Xiong, Yisha Qin, Yuan Feng, Yuan Zhao, Xiaojun Yu, and Yanpeng Zhang, “Coherent Control of Multiphoton Using Multidressing Fields”, Ann. Phys. (Berlin) 533, 2100083(2021).

[12] Tianlun Li, Xiaodie Li, Feng Li, Yanpeng Zhang, Jixiang Fang, and Lei Zhang, “Light modulation based on enhanced Kerr effect in molybdenum disulfide nanostructures with curved features”, Phys. Chem. Chem. Phys. (Accepted).

[13] Faisal Nadeem, Faizan Raza, Kangkang Li, Huanrong Fan, Irfan Ahmed, Changbiao Li, and Yanpeng Zhang, “Hybrid communication assisted by coherent oscillator using resonant excitation of Nitrogen Vacancy center in diamond”, Opt. Commun. 495, 127073 (2021).

[14] Wei Li, Changbiao Li, Mengqi Niu, Binshuo Luo, Irfan Ahmed, Yin Cai, and Yanpeng Zhang, “Three-Mode Squeezing of Simultaneous and Ordinal Cascade Four-wave Mixing Processes”, Ann. Phys. (Berlin) 533(4), 2100006 (2021).

[15] Irfan Ahmed, Muhammad Shehzad Khan, Santosh Paidi, Zhenhui Liu, Chi Zhang, Yuanchao Liu, Gulsher Ali Baloch, Alan W. L. Law, Yanpeng Zhang, Ishan Barman, and Condon Lau, “Laser induced breakdown spectroscopy with machine learning reveals lithium-induced electrolyte imbalance in the kidneys”, Journal of Pharmaceutical and Biomedical Analysis 194, 113805 (2021).

[16] Yameng Li, Kangkang Li, Shaohuan Ning, Huanrong Fan, Shun Liang, Yin Cai, Yanpeng Zhang, “Shaping Temporal Waveform of Tri-photon with Double-dressing”, Ann. Phys. (Berlin) 533(4), 2000489 (2021).

[17] Sifan Li, Habib Ullah, Yisha Qin, Zhili Chen, Jinyang Li, Yuan Zhao, Yanpeng Zhang, “Temporal and spectral hybrid interference from phase transition of Eu3+/Pr3+: YPO4 and evolution of amplifier and multiplexer”, Phys. Lett. A 404, 127400 (2021).

[18] Xuenan Li, Zhiguo Wang, Runding Luo, Yafen Wang, and Yanpeng Zhang, “Spatial modulation on vortex FWM induced by the nonlinear Kerr effect”, Physica Scripta 96(8), 085503(2021).

[19] Xinghua Li, Faizan Raza, Yufeng Li, Jinnan Wang, Jinhao Wang, Hasnain Ali, Luyuan Wang, Yuan Zhao, and Yanpeng Zhang, “Demultiplexer of Multi-Order Correlation Interference in Nitrogen Vacancy Center Diamond”, Materials 14, 6745 (2021).

[20] Yang Liu, Yin Cai, Binshuo Luo, Jin Yan, Mengqi Niu, Feng Li, and Yanpeng Zhang, “Collective Multipartite Einstein-Podolsky-Rosen Steering via Cascaded Four-Wave Mixing of Rubidium Atoms”, Phys. Rev. A 104, 033704 (2021).

[21] Habib Ullah, Jinyang Li, Anas Mujahid, Yufeng Li, Yafen Wang, Irfan Ahmed, and Yanpeng Zhang, “Phase transition filter from controllable hybrid lineshape of correlation and squeezing of Pr3+: YPO4 and Eu3+: YPO4”, J. Appl. Phys. 130(9), 093101(2021).

[22] Shaohuan Ning, Jinxian Lu, Shun Liang, Yuan Feng, Changbiao Li, Zhaoyang Zhang, and Yanpeng Zhang, “Talbot effect of an electromagnetically induced square photonic lattice assisted by a spatial light modulator”, Opt. Lett.46(19), 5035-5038(2021).

[23] Anas Mujahid, Muhammad Imran, Huanrong Fan, Taoli Yuan, Hasnain Ali, Peng Li, and Yanpeng Zhang, “Multi-channel optical hybrid filter controlled by extrinsic parameters in various phases of Eu3+: BiPO4”, J. Appl. Phys. 130(24), 243102 (2021).

[24] Jiahuan Ren, Qing Liao*, Feng Li*, Yiming Li, Olivier Bleu, Guillaume Malpuech, Jiannian Yao, Hongbing Fu* and Dmitry Solnyshkov*, " Nontrivial band geometry in an optically active system", Nature Communications, 12, 689 (2021) .

[25] Qing Liao*, Charly Leblanc, Jiahuan Ren, Feng Li*, Yiming Li, Dmitry Solnyshkov*, Guillaume Malpuech, Jiannian Yao, and Hongbing Fu, “Experimental Measurement of the Divergent Quantum Metric of an Exceptional Point”, Phsyical Review Letters, 127, 107402 (2021).

[26] Yongfeng Kang*, Meishan Li, Momo Wei, Hangfeng Hu, Jingyi Zhao*. Aberration analysis of offset cylindrical lens using differential algebra method [J]. Nuclear Inst. And Methods in Physics Research, A 986( 2021), 164720.

[27] Xiao Wang*, Tao Xue, Zhihua Shen, Minggang Long, Shengli Wu*, Analysis of Electron Emission Characteristics and Working Mechanism of Planar Bottom Gate Vacuum Field Emission Triode with Nanoscale Channel, Nanoscale, Vol.13, 14363-14370, Sept., 2021.

[28] Zhihua Shen*, Qiaoning Li, Xiao Wang*, Jinshou Tian, Shengli Wu, Nanoscale Vacuum Diode Based On Thermionic Emission For High Temperature Operation And Large-scale Production, Micromachines, Vol.12(7), 729, July, 2021.

[29] Xiaoya Lei*, Shahid Haroon, Shengli Wu*, A novel algorithm to improve image reconstruction quality for 2D streak camera, Nuclear Instruments and Methods in Physics Research A, Vol.991, 165023(1-7), March 1, 2021.

[30] Xiao Wang*, Zhihua Shen, Jie Li, Shengli Wu*, Preparation and Properties of Crystalline IGZO Thin Films, Membranes, Vol. 11(2), 134(1-9), Feb. 2021.

[31] Kang Wang, Haiyang Bai, Wenbo Hu*, Shengli Wu, Hongxing Wang, Huiqing Fan, Investigation of atomic diffusion behavior of Mo/Au interface, Materials Chemistry and Physics, Vol. 257, 123839, Jan. 2021.

[32] Yang S, Qu YF, Deng NK, et al. Effects of surface activation time on Si-Si direct wafer bonding at room temperature. Materials Research Express, 2021, 8: 085901.

[33] Zhu, C.; Yuan, F.*; Liu, X.; Li, J.*; Dong, H.; Zhao, C.; Yan, L.; Xu, Y.; Dai, J.; Si, J.; Jiao, B. and Wu, Z.*. High Triplet Energy Level Molecule Enables Highly Efficient Sky-Blue Perovskite Light-Emitting Diodes. J. Phys. Chem. Lett. 2021, 12, 11723-11729.

[34] Cao, X.; Li, J.*; Dong, H.*; Li, P.; Fan, Q.; Xu, R.; Li, H.; Zhou, G. and Wu, Z *. Stability Improvement of Tin-Based Halide Perovskite by Precursor-Solution Regulation with Dual-Functional Reagents. Adv. Funct. Mater. 2021, 31, 2104344.

[35] Wang, Z.; Jiao, B.*; Huang, L.*; Zuo, X.; Zhang, W.; Li, Y.; Wang, J.; Dong, H.; Hou, X. and Wu, Z.*. Cohesively Enhancing the Conductance, Mechanical Robustness, and Environmental Stability of Random Metallic Mesh Electrodes via Hot-Pressing-Induced In-Plane Configuration. ACS Appl. Mater. Interfaces 2021, 13, 41836-41845

[36] Xu R.; Dong H.*; Li P.; Cao X.; Li H.; Li J. and Wu, Z.*. Formamidine Acetate Induces Regulation of Crystallization and Stabilization in Sn-Based Perovskite Solar Cells. ACS Appl. Mater. Interfaces, 2021, 13, 33218-33225

[37] Chen, X.; Sun, Y.; Zhao, X.; Deng, X.; Yang, X.*; Sun, Y.; Zhou, G.* and Wu, Z.*. Mono-, di- and tri-nuclear PtII(C^N) (N-donor ligand) Cl complexes showing aggregationinduced phosphorescent emission (AIPE) behavior for efficient solution-processed organic light-emitting devices. Mater. Chem. Front., 2021, 5, 4160-4173

[38] Xu, J.; Xi, J.*; Dong, H.*; Ahn, N.; Zhu, Z.; Chen, J.; Li, P.; Zhu, X.; Dai, J.; Hu, Z.; Jiao, B.; Hou, X.; Li J.* and Wu, Z.*. Impermeable inorganic “walls” sandwiching perovskite layer toward inverted and indoor photovoltaic devices. Nano Energy. 88 (2021) 106286

[39] Wu, Y.; Yuan, F.*; Fu, F.; Liu, C.; Jiao, B.; Zhang, F.* and Wu, Z.*. Enhanced performance of spectra stable blue perovskite light-emitting diodes through Poly(9-vinylcarbazole) interlayer incorporation. Organic Electronics, 96 (2021) 106259

[40] Dong, H.; Li, P.; Dai, J.*; Yuan, F.*; Xu, R.; Cao, X.; Li, H.; Hou, X.; Li J. and Wu, Z.*. High efficient and stable Tin-based perovskite solar cells via short-chain ligand modification. Organic Electronics, 96 (2021) 106198

[41] Feng, Z.; Yu, Y.; Yang, X.; Sun, Y.; Zhong, D.; Deng, X.; Zhou, G.* and Wu, Z.*. Manipulating MLCT transition character with ppy-type four-coordinate organoboron skeleton for highly efficient long-wavelength Ir-based phosphors in organic light-emitting diodes. J. Mater. Chem. C, 2021, 9, 12650

[42] Zhang, L.; Yuan, F.; Jiao, B.; Dong, H.; Li, J. and Wu, Z.*. Exploiting a Multiphase Pure Formamidinium Lead Perovskite for Efficient Green-Light-Emitting Diodes. ACS Appl. Mater. Interfaces, 2021, 13, 23067-23073.

[43] Yu, Y.; Xu, D.; Huang, C.; He, X,; Li, J.; Zhao,C.; Jiao, B.*; Fung, M.*; Liao, L. and Wu, Z.*. Inverted with power efficiency over 220 lm W-1, Nano Energy, 82 (2021) 105660.

[44] 王兆宏,罗怡坤,楚杨阳.仿生声学超材料的声波控制及水下应用研究进展, 人　工　晶　体　学　报,2021,5:1234-1247.

[45] Hongjun You*, Lijun Zhao, Yun Zuo, Jixiang Fang*, High Catalytic Performance of Silver-Doped Gold Nanocages for Methanol Electrooxidation. Particle & Particle Systems Characterization, 2021.

[46] Ruiyuan Zhang#, Liang Yu#, Hongjun You*, Rui Hao, Jixiang Fang*, Tip Enrichment Surface-Enhanced Raman Scattering Based on the Partial Leidenfrost Phenomenon for the Detection of Pesticide, Sensors and Actuators: B.Chemical.

[47] Lingling Zhang, Yu Guo, Rui Hao, Shiya Fei, Hongjun You, Hu Nan, Yanzhu Dai, Jixiang Fang*, Ultra-rapid and highly efficient enrichment of organic pollutants via magnetic nanoparticles/mesoporous nanosponge compounds for ultrasensitive nanosensors. Nature Communications, 2021.

[48] 赵家炜，马建乐，郝锐，李铃薇，方吉祥, 远程增强拉曼光谱技术及其应用, 光散射学报，2021.

[49] Lingwei Li, Hongjun You,* Lijun Zhao, Ruiyuan Zhang, Muhammad Usman Amin, and Jixiang Fang*, Switchable Binding Energy of Ionic Compound and Application in Customizable Ligand Exchange for Colloid Nanocrystals, The Journal of Physical Chemistry Letters, 2021, 5271-5278.

[50] Muhammad Usman Amin#, Ruiyuan Zhang#, Hongjun You*, Jixiang Fang*, Solution-based SERS detection of weak surface affinity molecules by using Cysteamine modified Au Bipyramids, Analytical Chemistry, 2021, 93，7657-7664.

[51] Muhammad Usman Amin, Lingling Zhang, Rui Hao, Dongjie Zhang, Hongjun You, Jixiang Fang*, Electrochemical growth of dendritic silver nanostructures as facile SERS substrates, CrystEngcomm 2021, 23, 694-699.

[52] J. Li, W. Tan*, Jinhai Si, S. Tang, Z. Kang, and X. Hou, “Control of femtosecond single-filament formation via feedback-based wavefront shaping,” Optics Communications 490, 126929 (2021).

[53] J. Li, W. Tan*, Jinhai Si, S. Tang, Z. Kang, and X. Hou, "Control of the spatial characteristics of femtosecond laser filamentation in glass via feedback-based wavefront shaping with an annular phase mask," Optics Express 29, 5972-5981 (2021).

[54] X. Li, L. Yan*, Jinhai Si, A. Pan, Y. Xu, and X. Hou, "Tunable nonlinear absorption effect and carrier dynamics of perovskite quantum dots," Opt. Mater. Express 11, 569-574 (2021).

[55] L. Yan, Y. Xu, Jinhai Si*, Y. Li, and X. Hou, "Enhanced optical nonlinearity of Mxene Ti3C2Tx nanosheets decorated with silver nanoparticles," Opt. Mater. Express 11, 1401-1409 (2021).

[56] Z. Huang, W. Tan∗, Jinhai Si, S. Zeng, and X. Hou, "Supercontinuum-illumination for long-working-distance microscopic imaging of air–liquid mixed sprays in the near-nozzle region," Laser Physics, 31(7), 075301 (2021).

[57] S. Tang, W. Tan*, Jinhai Si, J. Li, Y. Yang, and X. Hou, "Feedback-based wavefront shaping based on light intensity distribution for focusing light through scattering media," J. Appl. Phys 130, 033103 (2021).

[58] Z. Liang, L. Yan*, Jinhai Si, P. Gong, X. Li, D. Liu, J. Li, and X, Hou, “Rational Design and Characterization of Symmetry-Breaking Organic Semiconductors in Polymer Solar Cells: A Theory Insight of the Asymmetric Advantage,”. Materials, 14, 672321 (2021).

[59] J. Li, W. Tan*, Jinhai Si, Z. Kang, and X. Hou, “Generation of Ultrabroad and Intense Supercontinuum in Mixed Multiple Thin Plates,” Photonics, 8, 3118, (2021).

[60] J. Li, W. Tan*, Jinhai Si, S. Tang, Y. Yang, and X. Hou, “Depolarization of the supercontinuum induced by linearly and circularly polarized femtosecond laser pulses in water,” Physical Review A 104, 053535 (2021).

[61] F. Huang, Jinhai Si*, T. Chen, T. Shen, M. Shi, and X. Hou, "Temporal-spatial dynamics of electronic plasma in femtosecond laser induced damage," Opt. Express 29, 14658-14667 (2021).

[62] Juan Wang, Guoqing Shao, Genqiang Chen, Xiuliang Yan, Qi Li, Wangzhen Song, Yanfeng Wang, Zhangcheng Liu, Shuwei Fan, Chaoyang Zhang, and Hong-Xing Wang, Schottky Barrier Height Modulation of Zr/p-Diamond Schottky Contact by Inserting Ultrathin Atomic Layer-Deposited Al2O3, IEEE Transactions on Electron Devices, 2021, 68, 5995-6000.

[63] Guoqing Shao, Juan Wang, Shumiao Zhang, Yanfeng Wang, Wei Wang and Hong-Xing Wang, Surface Morphology and Microstructure Evolution of Single Crystal Diamond during Different Homoepitaxial Growth Stages, Materials, 2021, 14, 5964.

[64] Guoqing Shao, Juan Wang, Zhangcheng Liu, Yanfeng Wang, Wei Wang, and Hong-Xing Wang, Performance-Improved Vertical Zr/Diamond Schottky Barrier Diode With Lanthanum Hexaboride Interfacial Layer, IEEE ELECTRON DEVICE LETTERS, 2021, 42, 1366-1369.

[65] Minghui Zhang, Wei Wang, Genqiang Chen, Haris Naeem Abbasi, Fang Lin, Feng Wen, Jingwen Zhang, Renan Bu, Hongxing Wang*, Normally-off hydrogen-terminated diamond field effect transistor with yttrium Gate, Carbon, 2021, 176, 307-312.

[66] Minghui Zhang, Wei Wang, Genqiang Chen, Haris Naeem Abbasi, Fang Lin, Feng Wen, Kaiyue Wang, Jingwen Zhang, Renan Bu, Hongxing Wang*，Properties of yttrium gate hydrogen-terminated diamond field effect transistor with Al2O3 dielectric layer，Applied Physics Letters, 2021, 118, 053506.

[67] Yan Liang, Tianfei Zhu, Mengjia Xi, Haris Naeem Abbasi, Jiao Fu, Rui Su, Zhiqiang Song, Hongxing Wang*, Kaiyue Wang, Fabrication of a diamond concave microlens array for laser beam homogenization, Optics & Laser Technology, 2021, 136, 106738.

[68] Juan Wang, Dan Zhao, Guoqing Shao, Zhangcheng Liu, Xiaohui Chang, Genqiang Chen, Wei Wang, Wenyang Yi, Kaiyue Wang, and Hongxing Wang*, Fabrication of dual-barrier planar structure diamond Schottky diodes by rapid thermal annealing, IEEE Transactions on Electron Devices, 2021, 68, 1176-1180.

[69] Chang, Xiaohui, Xiuliang Yan, Shuwei Fan, Jianing Su, Yan-Feng Wang, Ruozheng Wang, Genqiang Chen, Juan Wang, Wei Wang, and Hong-Xing Wang. Suppressing Nitrogen-Vacancy Centers to Enhance Performance of Diamond Ultraviolet Photodetector via Growing With Tungsten[J]. IEEE Transactions on Electron Devices, 2021, 68(12): 6228-6232.

[70] Xiaohui Chang, Qianwen Zhang, Yan-Feng Wang, Genqiang Chen, Shi He, Shuwei Fan, Wei Wang, Zhaoyang Zhang, Hong-Xing Wang. Operation of Diamond Solution-Gated Field-Effect Transistor in the Frequency Domain[J]. IEEE Transactions on Electron Devices, 2021, 68(12): 6400-6406.

[71] Qiang Wei#, Xiaofan Zhang#, Fang Lin, Ruozheng Wang, Genqiang Chen and Hong-Xing Wang*. Fabrication of a micro-scale three-dimensional single crystal diamond channel using a micro-jet water-assisted laser. Materials, 2021, 14, 3006.

[72] Shi He, Yan-Feng Wang, Genqiang Chen, Minghui Zhang, Wei Wang, Xiaohui Chang, Qi Li, Qianwen Zhang, Tianfei Zhu, Hong-Xing Wang*. Performance of hydrogen-terminated diamond MOSFET with LaB6/Al2O3 bilayer dielectric. Diamond & Related Materials, 120 (2021) 108646.

[73] Tian-Fei Zhu, Yan Liang, Zhangcheng Liu, Yan-Feng Wang, Guo-Qing Shao, Feng Wen, Tai Min, and Hong-Xing Wang, “Simple way to fabricate orderly arranged nanostructure arrays on diamond utilizing metal dewetting effect”, Optics Express, 2021, 29(18), 28359-28365.

[74] Feng Wen∗, S. Hui, S. Zhang, Z. Wu, Z. Liu, T. Zhu, F. Lin, W. Wang, Y. Zhang, and H. Wang, "Tunable Continuous-Variable Tripartite Entanglement via Cascaded Third-Order Nonlinear Processes in a Ring Cavity," Annalen der Physik n/a, 2100396.

[75] S. J. Hui, Feng Wen∗, M. H. Zhang, S. W. Zhang, Y. J. Yang, Z. P. Dai, Y. P. Su, Y. P. Zhang, and H. X. Wang, "The role of tunable nonlinear dark resonances on vacuum Rabi splitting and optical bistability in an atom-cavity system," Scientific Reports 11, 11 (2021).

[76] Yan-Feng Wang, Wei Wang, Jinjia Wei, Bo Jiao, Defei Xu, Xiaohui Chang, Haris Naeem Abbasi, Wangzhen Song, Genqiang Chen, Hong-Xing Wang, "Electrochemical route to bio-compatible fluorine-terminated diamond surface", Carbon, 2021,174,83-87.

[77] Qiang Wei; Gang Niu; Dan He; Jibran Hussain; Fang Lin; Xiaofan Zhang; Zhaoyang Zhang; Gen qiang Chen; Ruozheng Wang; Hongxing Wang ; Heteroepitaxy growth of single crystal diamond on Ir/P d/Al2O3 (11–20) substrate, Materials Letters, 2021, 303

[78] Qiang Wei; Gang Niu; Fang Lin; Xiaofan Zhang; Zhaoyang Zhang; Genqiang Chen; Hong-Xing Wa ng; Ruozheng Wang ; Heteroepitaxy of single crystal diamond on Ir buffered KTaO3 (001) substrates , Applied Physics Letters, 2021, 119(091902)

[79] Qiang Li, Qifan Zhang, Yunhe Bai, Haoran Zhang, Peng Hu, Yufeng Li, Feng YunDeep-UV hexagonal boron nitride (hBN)BAlN distributed Bragg reflectors fabricated by RF-sputteringOpt. Mater. Express2021:11(1):180

[80] Hua Zhong, Yaroslav V. Kartashov, Yongdong Li, Chunliang Liu, and Yiqi Zhang*Theory of topological corner state laser in Kagome waveguide arraysAPL PHOTONICS20216(4):040802

[81] Marco S. Kirsch#, Yiqi Zhang#, Mark Kremer, Lukas J. Maczewsky, Sergey K. Ivanov, Yaroslav V. Kartashov, Lluis Torner, Dieter Bauer, Alexander Szameit*, and Matthias HeinrichNonlinear second-order photonic topological insulatorsNATURE PHYSICS,2021,17(995):1000.

[82] Boquan Ren, Hongguang Wang, Victor O. Kompanets, Yaroslav V. Kartashov, Yongdong Li, and Yiqi Zhang*Dark topological valley Hall edge solitonsNANOPHOTONICS,2021,10(13):3559

[83] Hua Zhong, Shiqi Xia, Yongdong Li, Yiqi Zhang*, Daohong Song, Chuanliang Liu, and Zhigang ChenNonlinear topological valley Hall edge states arising from type-II Dirac conesADVANCED PHOTONICS20213(5):6001.

[84] Qian Tang, Boquan Ren, Victor O. Kompanets, Yaroslav V. Kartashov, Yongdong Li, and Yiqi Zhang*Valley Hall edge solitons in a photonic grapheneOPTICS EXPRESS202129(24):39755.

[85] Yiqi Zhang, Boquan Ren, Yongdong Li, and Fangwei Ye*Topological states in the super-SSH modelOPTICS EXPRESS202129(26)42827.

[86] Yue Sun, Long Hu*, Xin Dang, Li Zhu, Xianghong Yang, Jia Huang, Yongdong Li, and Xin LiInvestigation on the Mechanism of Triggering Efficiency of High-power Avalanche GaAs Photoconductive Semiconductor SwitchIEEE Electron Device Letters202142(11):1646 – 1649.

[87] Xianghong Yang , Jiapei Ao, Sichen Wu, Long Hu* , Xin Li*, Weihua Liu,Xiaoli Wang, and Chuanyu HanEnhancing the Sensitivity of GaN High Electron-Mobility Transistors-Based pH Sensor by Dual Function of Monolithic Integrated Planar Multi-Channel and Ultraviolet LightIEEE Transactions on Electron Devices202168(12):6437-6443.

[88] Na Zhang,Fang Wang, Meng Cao*，Wanzhao CuiExperimental research on influence of gas adsorption on secondary electron emission of copper surfaceMicron2021142, 103009.

[89] Meiqin Liu,Chunliang Liu, Jinjun Feng, edl Schamiloglu etMode control by rearrangement of slow wave structure in the 12-cavity relativistic xcitedv with difffaction outputAIP ADVANCES2021.

[90] Meiqin liu W.Chun Edl Schamiloglu, C.Liu.M.I.Fuks.W.JiangCoherent xcitedv-cyclotron radiation xcited by an electron beam in a crossed-ellipltical metamaterial oacillatorIEEE Transactions on Plasma Science2021.

[91] Chen Lichi; Wang Yaogong; Wang Wenjiang; Ma Xiaoqin;Yang Jingyuan; Zhang XiaoningPreparation of Silicon Nanowires and Porous Silicon Composite Structure by Electrocatalytic Metal Assisted Chemical EtchingJOURNAL OF INORGANIC MATERIALS202136(6): 608-614.

[92] Xiaoqin Ma, Yaogong Wang, Lichi Chen, Long Hu, Wenjiang Wang, Xiaoning Zhang and Chunliang LiuSilicon nanowires: the promoter of performance improvement of microplasma in a microcavity array devicePlasma Sources Science and Technology202130, 025010.

[93] Fan R, Wang YG, Zhang XN, et al. The regulation of memory effect and its influence on discharge properties of DBD driven by bipolar pulse at atmospheric pressure nitrogenPlasma Sci. Technol202123(10): 150-158.

[94] Xiaoqin Ma, Yaogong Wang, Lichi Chen, Chenjie Zhou, Wenjiang Wang and Xiaoning ZhangCo-effect of dielectric layer material and driving pulse polarity on the spatial emission intensity distributions of micro dielectric barrier dischargeJournal of Physics D: Applied Physics202154, 505204.

[95] Zheng, Xing; Song, Huimin; Dongliang, Bian; Liang, Hua; Zong, Haohua; Huang, Zhengyong; Yaogong, Wang; XU, Wenjie. A Hybrid Plasma De-icing Actuator by Using SiC hydrophobic Coating-Based Quartz Glass as Barrier DielectricJournal of Physics D: Applied Physics202154, 375202 .

[96] Yonggui Zhai , Hongguang Wang*, Yongdong Li，Meng Cao, Shu Lin, Meng Weng, Yun Li, Wanzhao Cui, and Jun ChenA Combined Susceptibility Diagram Including the Average Secondary Emission Yield on the Dielectric SurfaceIEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS202132(2): 137.

[97] Boquan Ren, Hongguang Wang, Victor O. Kompanets, Yaroslav V. Kartashov, Yongdong Li and Yiqi Zhang*Dark topological valley Hall edge solitonsNanophotonics 202110(13): 3559–3566.

[98] Jianwei Zhang, Yonggui Zhai, Lanpeng Qiang, Wei Luo, Hongguang Wang, Yongdong Li, Chunliang LiuImproving the threshold of multipactor using a graded permittivity dielectric windowPhysics of Plasmas202128: 023501/1-023501/6.

[99] Liang Zhao, Chunliang LiuA Multi-Physic Field Lifetime Evaluation Formula for Insulators Under Pulsed Field and Mechanical StressIEEE TRANSACTIONS ON PLASMA SCIENCE202149(12): 3913–3918.

[100] 党鑫,杨向红,孙岳，刘康,朱莉,胡龙*,李昕,刘卫华,王小力GaAs 光导开关电极制备工艺及性能测试西安交通大学学报202165(2):1-4.

[101] 王芳，黎东杰，翁明，封国宝，曹猛，张洪太电子辐照介质材料二次电子发射系数与能谱测量数据库真空科学与技术学报2021.

[102] Yan Qiu, Mingxin Shi,Jian Wu,Zhi Zhang,Yin Zhou,Xingwen Li,Yongdong LiDevelopment of fiber-optic laser-induced breakdown spectroscopy in nuclear power plantsThe fourth Asian Symposium on Laser Induced Breakdown Spectroscopy (ASLIBS2021), 中国青岛2021.10.16-20O II-08.

[103] Shu Lin, Patrick Y. Wong, John Verboncoeur, Yongdong Li, Chunliang, LiuThe Effect of Angular Secondary Emission and Impact on Multipactor: Statistical Modeling and Threshold Analysis2021 IEEE International Conference on Vacuum Electronics(IVEC)2021.4.28~30.

[104] Shu Lin; Hongguang Wang; Hao Qu; Yongdong Li; Patrick Wong; John VerboncoeurMultipactor Statistical Modeling Regarding Space Charge Effect for Saturation Investigation 2021 IEEE International Conference on Plasma Science (ICOPS) Lake Tahoe, NV, USA2021.9.12-16.

[105] Saifur Madam, Meiqin Liu, Chunliang Liu, Edl SchamilogluNovel offset complementary split ring resonators on narrow-wall pf waveguides for HPM Application s2021 AP-S/URSI2021.12.04-10.

[106] Min Peng, Yongdong Li, Chunliang Liu, Meng Cao, Shu LinMulti-scale Associated Analysis with Material Surface Treatment for Multipactor Suppression of Space Microwave Devices22nd International Vacuum Electronics Conference, Virtual Conference2021.04.27-30.

[107] Runqi Yan, Yongdong Li, Meng CaoA Method for Calculating Electron Inelastic Mean Free Paths with QUANTUM ESPRESSO22nd International Vacuum Electronics Conference, Virtual Conference2021.04.27-30226.

[108] Zhuoran Liu,Xiaoqin Ma,Yaogong Wang,Xiaoning ZhangThe dominant mechanism of discharge evolution in microplasma discharge under different pressure with 2D PIC-MCC simulationThe 8th East Asia Joint Symposium on Plasma and Electrostatics Technologies for Environmental Applications, 中国西安2021.10.18-21O-55.

[109] 丁文申昊, 王懿泽，王洪广，刘纯亮太赫兹电磁场作用下Kv1.2钾离子通道电学特性研究2021全国太赫兹生物物理分会年会2021.04.23-25.

[110] 丁臻捷固态断路开关器件研制及驱动关键技术研究第七届全国脉冲功率会议 重庆2021.1.

[111] 胡琳锴，谢少毅，高达，李佳慧，曹猛高功率微带天线单元大气击穿的数值模拟第七届全国脉冲功率会议暨第八届全国特种电源学术交流会 重庆2021.10.10-13文章编号：CPPC-SPS-2021-0149.

[112] 高达， 胡琳锴，曹猛 PTFE包覆对高功率平面反射阵列天线性能影响分析第七届全国脉冲功率会议暨第八届全国特种电源学术交流会 重庆2021.10.10-13文章编号：CPPC-SPS-2021-0155.

[113] 张蕾，谢少毅，李佳慧，曹猛低剖面高功率容量贴片天线优化设计第七届全国脉冲功率会议暨第八届全国特种电源学术交流会 重庆2021.10.10-13文章编号：CPPC-SPS-2021-0150.

[114] 唐泽华，王玥，李永东，陈再高，蒋铭，王洪广柱坐标系中填充各向异性介质的粒子模拟算法研究与实现第七届全国脉冲功率会议暨第八届全国特种电源学术交流会 重庆2021.10.10-13CPP-SPS-2021-0015.

2020

[115] Zhaoyang Zhang, Rong Wang, Yiqi Zhang, Yaroslav V. Kartashov, Feng Li, Hua Zhong,Hua Guan, Kelin Gao, Fuli Li, Yanpeng Zhang, and Min Xiao, “Observation of edge solitons in photonic graphene”, Nature Commun. 11, 1902 (2020).

[116] Zhaoyang Zhang, Shun Liang, Feng Li, Shaohuan Ning, Yiming Li, G. Malpuech, Yanpeng Zhang, Min Xiao, and D. Solnyshkov, “Spin-orbit coupling in photonic graphene”, Optica 7(5), 455-462 (2020).

[117] Kangkang Li, Yin Cai, Ji Wu, Yuliang Liu, Siqi Xiong, Yameng Li, and Yanpeng Zhang, “Three-body topology entanglement generation via a six-wave mixing: competing and coexisting of linear and nonlinear optics responses in triphoton correlation”, Adv. Quantum Technol. 3(5), 1900119 (2020).

[118] Yuliang Liu, Kangkang Li, Wei Li, Sifan Li, Yin Cai, and Yanpeng Zhang, “Dressing-controlled quantum steering in energy-level cascaded parametric amplified four-wave mixing processes”, Adv. Quantum Technol. 3(8), 2000029 (2020).

[119] Peng Li, Feng Li, Xiaoyu Zhang, Yiming Li, Xiaoxuan Luo, Ruimin Wang, Yin Cai, Yanpeng Zhang, “Orthogonally polarized luminescence of single bismuth phosphate nanocrystal doped with europium”, Adv. Opt. Matter. 8(17), 2000583(2020).

[120] Huanrong Fan, Faizan Raza, Irfan Ahmed, Kangkang Li, Habib Ullah, and Yanpeng Zhang, “Three-type Fano interference controlled by phase transition of Eu3+/ Pr3+:YPO4”, New J. Phys. 22(9), 093008(2020).

[121] Tianlun Li, Rui Hao, Lingling Zhang, Jianyong Mao, Feng Li, Yanpeng Zhang, Jixiang Fang, and Lei Zhang, “Superior Third-order Nonlinearity in Inorganic Fullerene-like WS2 Nanoparticles”, Photonics Research 8(12), 1881-1887(2020).

[122] Yu Xiang, Yang Liu, Yin Cai, Feng Li, Yanpeng Zhang, and Qiongyi He, “Monogamy relations within quadripartite Einstein-Podolsky-Rosen steering based on four-wave mixing of rubidium atoms”, Phys. Rev. A 101(5), 053834 (2020).

[123] Yin Cai, Ling Hao, Da Zhang, Yang Liu, Binshuo Luo, Zhan Zheng, Feng Li, and Yanpeng Zhang, “Multimode Entanglement Generation with Dual-Pumped Four-Wave-Mixing of Rubidium Atoms”, Opt. Express 28(17), 25278-25292 (2020).

[124] Ruimin Wang, Faizan Raza, Fahad Nawaz, Huanrong Fan, Anas Mujahid, Hasnain Ali, and Yanpeng Zhang, “Tunable luminescence between Stark levels of Pr3+:YPO4 nanocrystals by different crystal phase”, J. Lumin. 223, 117245 (2020).

[125] Xinghua Li, Yuxuan Gao, Yixin Lin, Wannian Fang, Jinjing Zhang, Zhiguo Wang, and Yanpeng Zhang, “Optical control of an Airy beam via four wave mixing and six wave mixing”, Opt. Lett. 45(10), 2930-2933 (2020).

[126] Habib Ullah, Faizan Raza, Fahad Nawaz, Ali Zamin, Jinyang Li, and Yanpeng Zhang, “Dressed controlled filter with phase transitions of Eu3+: YPO and Pr3+: YPO”, Europhys. Lett. 129, 64002 (2020).

[127] Faizan Raza, Irfan Ahmed, Habib Ullah, Hammad-ul-wahab, Ubaid Khan, and Yanpeng Zhang, “Multi-channel router and Logic NAND gate from multiple Autler-Townes splitting controlled by phase transition”, RSC Adv. 10(26), 15239 - 15244 (2020).

[128] Kangkang Li, Yin Cai, Wei Li, Huanrong Fan, Shaohuan Ning, Siqiang Zhang, and Yanpeng Zhang, “All-optical wavelength division multiplexing amplifier based on vacuum induced nonreciprocal bistability in six-wave mixing process with a ring cavity”, Results in Phys. 16, 102822 (2020).

[129] Changbiao Li, Wei Li, Da zhang, Zhaoyang Zhang, Bingling Gu, Kangkang Li, and Yanpeng Zhang, “Enhanced squeezing of four-wave mixing by phase sensitive dressed effect in hot atomic system”, Laser Phys. Lett. 17(1), 015401 (2020).

[130] Faizan Raza, Fan Huanrong, Habib Ullah, Faisal Nadeem, Hasnain Ali, Jinyang Li, and Yanpeng Zhang, “Optical transistor and router application of AT-Splitting in various solid atomic-like media”, Opt. Lett. 45(1), 240-243 (2020).

[131] Ruimin Wang, Irfan Ahmed, Faizan Raza, Changbiao Li, and Yanpeng Zhang, “Light Slowing and All-Optical Time Division Multiplexing of Hybrid Four-Wave Mixing Signal in Nitrogen-Vacancy Center”, Chin. Phys. B 29(5), 054204(2020).

[132] Zhiqiang Luo, Xinghua Li, Yuwei Lan, Irfan Ahmed,Yang Liu, Guangchen Lan, and Yanpeng Zhang, “­­­­Polarized double dressing control of biphotons interference and quantum tomography”, J. Phys. Commun. 4 (6), 065014 (2020).

[133] Junling Che, Peilin Zhao, Danmeng Ma and Yanpeng Zhang, “Kerr Nonlinearity modulated dressed Vortex Four-wave Mixing from a Photonic Band Gap”, Opt. Express 28(12), 18343-18350 (2020).

[134] Faizan Raza, Fahad Nawaz, Anas Mujahid, Muhammad Asim, Jinyang Li, and Yanpeng Zhang, “Dressed switch of between enhancement and suppression in Eu3+:YPO4 and Pr3+：YPO4”, Physica Scripta 95(7), 075107 (2020).

[135] Kangkang Li, Yuan Feng, Xinghua Li, Bingling Gu, Yin Cai, and Yanpeng Zhang, “Generation of competitive and coexisting two pairs of biphotons in single hot atomic vapor cell”, Ann Phys(Berlin)532(8), 2000283 (2020).

[136] Yuan Feng, Zhaoyang Zhang, Irfan Ahmed, Sifan Li, Yuliang Liu, Yin Cai, and Yanpeng Zhang, “Evolution of linear and nonlinear optics responses in single- and double-dressing quadphoton correlation”, Opt. Express 28(18), 26572-26586 (2020).

[137] Lei Zhang, Kun Wang, Hui Chen, and Yanpeng Zhang, “Robust conformal perfect absorber using epsilon-near-zero material”, Photonics 7(3), 57(2020).

[138] Jiawei Li, Wei Li, Mengqi Niu, Yixing Lin, Changbiao Li, Yin Cai, and Yanpeng Zhang, “Generation of Multimode Quantum Correlation with Energy-level Cascaded Four-wave Mixing Processes”, Ann. Phys. 422, 168316(2020).

[139] Mingliang Hu, Zhiyong Qin, Junling Che, and Yanpeng Zhang, “Propagating multi-channel four-wave mixing process in modulated moving photonic band gap”, Opt. Express 28(22), 33448-33455 (2020).

[140] Yongfeng Kang *, Jingyi Zhao, Jiaxin Wu, Lei Zhang*, Jian Zhao, Yiqi zhang*, Yuqing Zhao, and Xiaofei Wang. Superior Deep-ultraviolet Source Pumped by an Electron Beam for NLOS Communication [J]. IEEE Transactions on Electron Devices 67(8), 2020, 3391-3394.

[141] Yongfeng Kang*, Hangfeng Hu, Jingyi Zhao, High order aberrations calculations of Wien filters using differential algebra methods [J]. Ultramicroscopy 2020 (210).

[142] Yongfeng Kang*，Bin Li *, Jingyi Zhao, Bangzhi Ge, Ming Weng, Zhongqi Shi *, Yuqing Zhao. Effect of structure on the secondary electron emission of tetrahedral amorphous carbon films [J]. VACUUM 172 (2020), 109043.

[143] Biye Liu, Jie Li*, Shengli Wu, Wenbo Hu, Mingxin Zhang, Kongting Wei, Jintao Zhang, Huiqing Fan, Secondary electron emission performance of the surface Ni-doped MgO-Au thin film under continuous electron bombardment, Materials Letters, Vol. 278, 128452, 2020.

[144] Kongting Wei, Ruozheng Wang, Jie Li, Biye Liu, Qiang Wei, Rongrong Wu, Shengli Wu*, Wenbo Hu, Hongxing Wang, Secondary electron emission properties of double-layer B-doped diamond films, Diamond & Related Materials, Vol.106: 107826, June, 2020.

[145] Xiaoya Lei, C. Cai, Minrui Zhang, Shengli Wu, J. Wang, Jinshou Tian, Y. Lu, Wenlong Wen, Chengquan Pei*, A. Liu, Design of a novel high-performance ultrafast optical framing camera, Journal of Instrumentation, Vol.15(3): P03007, March 2020.

[146] Kongting Wei, Jie Li, Biye Liu, Rongrong Wu, Qiang Wei, Shengli Wu*, Wenbo Hu, Hongxing Wang, Effect of Hydrogen Plasma Treatment on Secondary Electron Emission Properties of Polycrystalline Diamond Films, Vacuum, Vol.172(2020)109046, Oct. 31, 2019.

[147] Kang Wang, Kun Ruan, Wenbo Hu, Shengli Wu, Hongxing Wang，Room temperature bonding of GaN on diamond wafers by using Mo/Au nano-layer for high-power semiconductor devices, Scripta Materiallia, Vol.174, pp87-90, Jan. 2020.

[148] 侯卓立，周燕萍，查强，李茂林，左超，杨秉君，吴胜利*，薄膜体声波滤波器 AlN压电薄膜的ICP刻蚀研究, 真空科学与技术学报, Vol.40, No.3, pp.220-225, 2020年3月.

[149] Wang K, Ruan K, Bai HY, et al. Investigation on the bonding quality of GaN and Si wafers bonded with Mo/Au nano-layer in atmospheric air. Materials Science in Semiconductor Processing, 2020, 114: 105069.

[150] Pang Y, Zhao W, Li J, Yuan Y, Hu WB, Wu SL, Li YD, Yang SN. Electron Emission Properties of Silicon-Rich Silicon Oxide Film Prepared by Reactive Magnetron Sputtering Deposition and Rapid Thermal Annealing. Materials Research. 2020, 23(1): e20190401

[151] Error analysis of the dispersion-compensated wide-band polarization sagnac interferometer. Jingping Zhu,Kang Zong, Goudail, F, Ning Zhang, and Xun Hou, Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci., XLIII-B1-2020, 621–625.

[152] Broadband snapshot polarimetric imaging based on dispersion-compensated Savart plates[J].Ning Zhang, Jingping Zhu, Yunyao Zhang, et al.Optics Communications, 2020, 457:124607.

[153] Snapshot broadband polarization imaging based on Mach-Zehnder-grating interferometer, Ning Zhang, Jingping Zhu, Yunyao Zhang, and Kang Zong. Opt. Express 28, 33718-33730 (2020).

[154] Design of efficient concave diffraction grating on 220 nm SOI platform for hybrid WDM-PDM (de)multiplexing[J]. Ke Li, Jingping Zhu , Yuzheng Mao, et al. Optics Communications, 2020:126358.

[155] Etched diffraction grating with one-dimensional photonic crystal bandgap theory[C]// International Conference on Optical Instruments and Technology 2019: Micro/Nano Photonics: Materials and Devices. Jingping Zhu , Ke Li, Yuzheng Mao 2020.

[156] Dual-input concave diffraction grating demultiplexer based on dielectric multidirectional reflectors[J]. Yuzheng Mao, Jingping Zhu, Ke Li, Yang Zhang and Xun Hou. Journal of the Optical Society of America A, 2020, 36 (9): 1585-1590.

[157] Blur Kernel Estimation by Structure Sparse Prior[J]. Xiaobing Yuan, Jingping Zhu.Applied Sciences, 2020, 10(2):657.

[158] Liu, X.; Yu, Y.; Yuan, F.; Zhao, C.; Dong, H.; Jiao, B.and Wu, Z.*. Vacuum Dual-Source Thermal-Deposited Lead-Free Cs3Cu2I5 Films with High Photoluminescence Quantum Yield for Deep-Blue Light-Emitting Diodes. ACS Appl. Mater. Interfaces, 2020, 12, 52967-52975.

[159] Lei, T.; Xu, J.; Chen, J.; Zhu, X.; Jiao, B. and Wu, Z.*. An ultra-thin inorganic interlayer strategy for achieving efficient inverted planar perovskite solar cells and modules with high fill factor. Organic Electronics, 87 (2020) 105937.

[160] Xi, J.; Spanopoulos, I.; Bang, K.; Xu, J.; Dong, H.; Yang, Y.; Malliakas, C.; Hoffman, J.; Kanatzidis, M.* and Wu, Z.*, Alternative Organic Spacers for More Efficient Perovskite Solar Cells Containing Ruddlesden-Popper Phases. J. Am. Chem. Soc., 2020, 142, 19705-19714.

[161] Lei, T.; Li, F.; Zhu, X.; Dong, H.*; Niu, Z.; Ye, S.; Zhao, W.; Xi, J.; Jiao, B.; Ding, L.* and Wu, Z.*. Flexible Perovskite Solar Modules with Functional Layers Fully Vacuum Deposited. Sol. RRL., 2020, 2000292.

[162] Zhang, L.; Yuan, F.* ; Xi, J.; Jiao, B.; Dong, H.; Li, J.* and Wu, Z.*. Suppressing Ion Migration Enables Stable Perovskite Light-Emitting Diodes with All-Inorganic Strategy. Adv. Funct. Mater., 2020, 2001834.

[163] Li, P.; Dong, H.*; Xu, J.; Chen, J.; Jiao, B.; Hou, X.; Li, J.* and Wu, Z.*. Ligand Orientation-Induced Lattice Robustness for Highly Efficient and Stable Tin-Based Perovskite Solar Cells. ACS Energy Lett., 2020, 5, 2327-2334.

[164] Xu, J.; Dong, H.*; Xi, J.; Yang, Y.; Yu, Y.; Ma, L.; Chen, J.; Jiao, B.; Hou, X.; Li, J.*; Wu, Z.*. Local nearly non-strained perovskite lattice approaching a broad environmental stability window of efficient solar cells. Nano Energy, 75 (2020) 104940.

[165] Chen, X.; Yang, H.; Yao, C.; Zhong, D.; Guo, H.; Yang, X.; Sun, Y.; Zhou, G.* Wu, Z.*. Optimized trade-off between electroluminescent stability and efficiency in solution-processed WOLEDs adopting functional iridium(III) complexes with 9-phenyl-9-phosphafluorene oxide (PhFlPO) moiety. Organic Electronics (2020), doi: https://doi.org/10.1016/j.orgel.2020.105797.

[166] Niu, Z.; Lei, T.*; Dong, H.; Deng, Z.*; Zhao, W.; Li, F.; Ye, S.; Wu, Z.*. A cation-regulation strategy for achieving high-performance perovskite solar cells via a fully-evaporation process. Organic Electronics, 82 (2020) 105710.

[167] Yang, X.; Yue, L.; Yu, Y.; Liu, B.; Dang, J.; Sun, Y.; Zhou, G.*; Wu, Z.* and Wong, W.*. Strategically Formulating Aggregation-Induced EmissionActive Phosphorescent Emitters by Restricting the Coordination Skeletal Deformation of Pt(II) Complexes Containing Two Independent Monodentate Ligands. Advanced Optical Materals, 2020, 2000079.

[168] Yuan, F.; Ran, C.; Zhang, L.; Dong, H.; Jiao, B.; Hou, X.; Li, J. and Wu, Z.*. A Cocktail of Multiple Cations in Inorganic Halide Perovskite toward Efficient and Highly Stable Blue Light-Emitting Diodes. ACS Energy Lett., 2020, 5, 1062-1069.

[169] Song, D.; Yu, Y.; Yue, L.; Zhong, D.; Zhang, Y.; Yang, X.; Sun, Y.; Zhou, G.*, Wu, Z.*. Asymmetric thermally activated delayed fluorescence (TADF) emitters with 5,9-dioxa-13b-boranaphtho[3,2,1-de]anthracene (OBA) as acceptor and highly efficient blue-emitting OLEDs. Journal of Materials Chemistry C, 2020, 8, 5349-5354 .

[170] Dai, J.; Xi, J.; Zu, Y.; Li, K.; Xu, J.; Shi, Y.; Liu, X.; Fan, Q.; Zhang, J.; Wang, S.; Yuan, F.; Dong, H.; Jiao, B.; Hou, X.;Wu, Z.*. Surface mediated ligands addressing bottleneck of room-temperature synthesized inorganic perovskite nanocrystals toward efficient light-emitting diodes. Nano Energy, 70 (2020) 104467

[171] Zu, Y.; Xi, J.; Li, L.; Dai, J.; Wang, S.; Yun, F.; Jiao, B.; Dong, H.; Hou, X. and Wu, Z.*. High-Brightness and Color-Tunable FAPbBr3 Perovskite Nanocrystals 2.0 Enable Ultrapure Green Luminescence for Achieving Recommendation 2020 Displays. ACS Applied. Materals. Interfaces, 2020, 12, 2835-2841.

[172] Wang, Z.; Jiao, B.; Qing, Y.; Nan, H.; Huang, L.; Wei, W.; Peng, Y.; Yuan, F.; Dong, H.; Hou, X. and Wu, Z.*. Flexible and Transparent Ferroferric Oxide-Modified Silver Nanowire Film for Efficient Electromagnetic Interference Shielding. ACS Applied. Materals. Interfaces, 2020, 12, 2826-2834 .

[173] Zhang, Y.; Chen, X.; Song, D.; Zhong, D.; Yang, X.; Sun, Y,; Liu, B.; Zhou, G.* and Wu, Z.*. Unsymmetric 2-phenylpyridine (ppy)-type cyclometalated Ir(III) complexes bearing both 5,9-dioxa-13b-boranaphtho[3,2,1-de]anthracene and phenylsulfonyl groups for tuning optoelectronic properties and electroluminescence abilities.Inorg. Chem. Front., 2020, 7, 1651-1666 .

[174] Chen, J.; Dong, H.*; Zhang, L.; Li, J.; Jia, F.; Jiao, B.; Xu, J.; Hou, X.; Liu, J.* and Wu, Z.*. Graphitic carbon nitride doped SnO2 enabling efficient perovskite solar cells with PCEs exceeding 22%. Journal of Materials Chemistry A, 2020, 8, 2644-2653 .

[175] YangyangChua, ZhaohongWang∗, ZhuoXua, Broadband high-efficiency controllable asymmetric propagation by pentamode acoustic metasurface，Physics Letters A 384(2020)126230.

[176] Dongjie Zhang, Hongjun You*, Lingling Zhang, Jixiang Fang*, Facile surface ligands modification of mesoporous Au nanoparticles for highly sensitive enrichment-typed SERS detection, Analytical Chemistry, 2020, 92, 23, 15379–15387.

[177] Tianlun Li, Rui Hao, Lingling Zhang, Jianyong Mao, Feng Li, Yanpeng Zhang, Jixiang Fang*, Jun Wang, Lei zhang*, Superior Third-order Nonlinearity in Inorganic Fullerene-like WS2, Photonics Research，2020, 8(12) 1881-1887.

[178] Dongjie Zhang, Rui Hao, Lingling Zhang, Ruiyuan Zhang, Hongjun You, Jixiang Fang*, Ratiometric Sensing of Polycyclic Aromatic Hydrocarbons Using Capturing Ligand Functionalized Mesoporous Au Nanoparticles as a Surface-Enhanced Raman Scattering Substrate, Langmuir, 2020, 36 (38) 11366-11373.

[179] Lingling Zhang, Rui Hao, Dongjie Zhang, Hongjun You*, Yanzhu Dai, Weihua Liu, Jixiang Fang*, Shape-controlled hierarchical flowerlike Au nanostructure microarrays by electrochemical growth for SERS application, Analytical Chemistry, 2020, 92(14) 9838-9846.

[180] Dongjie Zhang,#, Leqin Peng,#, Xinglong Shang, Wenxiu Zheng, Hongjun You, Teng Xu, Bo Ma, Bin Ren*, Jixiang Fang*, Buoyant particulate strategy for few-to-single particle-based plasmonic enhanced nanosensors,Nature Communications, 2020, 11.

[181] Rui Hao, Hongjun You*, Jie Zhu, Teng Chen*, Jixiang Fang*, ‘Burning lamp’like -like Robust Molecular Enrichment for Ultrasensitive Plasmonic Nanosensors, ACS Sensors, 2020, 5(3), 781-788.

[182] Rui Hao, Lingling Zhang, Lei Zhang*, Hongjun You, Jixiang Fang*, Curved 2D WS2 nanostructures: nanocasting and silent phonon mode, Nanoscale, 2020, 12, 9038 - 9047.

[183] H. Xu, L. Yan*, Jinhai Si, X. Li, Y. Xu, and X. Hou, “Influence of the photoluminescence property of carbon nanodots on the reduction of silver ions,” Journal of Luminecence 217, 116804 (2020).

[184] X. Li, L Yan*, Jinhai Si, Y. Xu, and X. Hou, “Control of the size and luminescence of carbon nanodots by adjusting ambient pressure in laser ablation process,” Journal of Applied Physics 127 (9), 083102 (2020).

[185] M. Li, L. Yan*, Jinhai Si, X. Li, J. Li, and X. Hou, "Enhancement mechanism of the saturable absorption effect in reduced graphene oxide decorated with silver nanoparticles," Opt. Mater. Express 10, 884-890 (2020).

[186] Y. Xu, L. Yan*, Jinhai Si, M. Li, Y. Ma, J. Li, and X. Hou, "Nonlinear absorption property and carrier dynamics in MoS2/Graphene van der Waals heterostructures," Carbon 165, 421-427 (2020).

[187] M. Wang, W. Tan, Jinhai Si, Y. Zheng, and Z. Huang, "Diagnosis of liquid-gas mixed sprays in the near-field region using femtosecond laser induced supercontinuum imaging method," Opt. Express 28, 3298-3304 (2020).

[188] X. Pham, Jinhai Si*, T. Chen, Z. Niu and X. Hou. “Ultra-high-temperature resistant DBR fiber laser based on type II-IR fiber Bragg gratings,” Appl. Opt., 59, 3081(2020).

[189] F. Huang, Jinhai Si*, T. Chen, L. Hou and X. Hou, “Wide-Range Wavelength-Tunable Mode-Locked Fiber Laser Based on Fiber Bragg Grating,” IEEE Photon. Technol. Lett., 32, 1025-1028(2020).

[190] T. Chen, P. Zhao, K. Li, Jinhai Si*, J. Hu, B. Gao, Y. Gao and X. Hou. “Fabrication of three-dimensional metal structures embedded in hydrogel by using femtosecond laser ablation and electroplating,” Opt. Lett. 45, 6286-6289 (2020).

[191] Xiaohui Chang, Yan-Feng Wang, Haris Naeem Abbasi, Ruozheng Wang, Zhangcheng Liu, Juan Wang, Wangzhen Song, Genqiang Chen, Minghui Zhang, Wei Wang, Kaiyue Wang, Hong-Xing Wang, Pd nanoparticle size effects in localized surface plasmon-enhanced diamond photodetectors, Optical Materials, 2020, 107: 110031.

[192] Minghui Zhang, Wei Wang, Genqiang Chen, Haris Naeem Abbasi, Yanfeng Wang, Fang Lin, Feng Wen, Kaiyue Wang, Jingwen Zhang, Renan Bu, Hongxing Wang*，Normally off hydrogen-terminated diamond field effect transistor with Ti/TiOx, IEEE Transactions on Electron Devices, 2020, 67(11), 4784-4788.

[193] Yan-Feng Wang, Wei Wang, Haris Naeem Abbasi, Xiaohui Chang, Xiaofan Zhang, Tianfei Zhu, Zhangcheng Liu, Wangzhen Song, Genqiang Chen, Hong-Xing Wang. LiF/Al2O3 as Dielectrics for MOSFET on Single Crystal Hydrogen-terminated Diamond. IEEE ELECTRON DEVICE LETTERS, 2020, 41(6): 808-811.

[194] Wangzhen Song, Dan Zhao, Juan Wang, Zhangcheng Liu, Yanfeng Wang, Xiaohui Chang, Ruozheng Wang, Wei Wang, Haris Naeem Abbasi, Hongxing Wang. Characteristics of ruthenium ohmic contact to heavily boron doped diamond by post-annealing. DIAMOND AND RELATED MATERIALS. 2020,106, 107869.

[195] Sijia Hui, Feng Wen, Xiaojun Yu, Zhiping Dai, Irfan Ahmed, Yunpeng Su, Yanpeng Zhang, Hongxing Wang, Nonlinear optical induced lattice in atomic configurations, Scientific Reports, 2020, 10:13396.

[196] Su, Rui; Liu, Zhangcheng; Abbasi, Haris Naeem; Wei, Jinjia; Wang, Hongxing Visible Light Activation of Photocatalytic for Reduction of Nitrogen to Ammonia by Introducing Impurity Defect Levels into Nanocrystalline Diamond；Materials,2020,13,4559.

[197] Yan Liang, Tianfei Zhu, Mengjia Xi, Haris Naeem Abbasi, Jiao Fu, Rui Su, Zhiqiang Song, Kaiyue Wang and Hongxing Wang. Fabrication of concave microlenses on a diamond by a spin coating process. Optics Express, 2020, 28(7): 9320.

[198] Zhangcheng Liu, Wenyang Yi, Dan Zhao, Haris Naeem Abbasi, Tai Min, and Hong-Xing Wang, Diamond avalanche diodes for obtaining high-voltage pulse with subnanosecond front edge, AIP Advances, 2020, 10, 065015.

[199] Zhangcheng Liu, Dan Zhao, Tai Min, and Hongxing Wang, 3D TiO2/Diamond Ultraviolet Detector Using Back-to-Back Pd Schottky Electrode, Physica Status Solidi A, 2020, 217, 2000218.

[200] Zhangcheng Liu, Fang Lin, Dan Zhao, Tai Min, and Hongxing Wang, Fabrication and Characterization of (100)‐Oriented Single‐Crystal Diamond p–i–n Junction Ultraviolet Detector, Physica Status Solidi A, 2020.

[201] Zhangcheng Liu, Dan Zhao, Tianfei Zhu, Juan Wang, Wenyang Yi, Tai Min, and Hong-Xing Wang, Enhanced responsivity of diamond UV detector based on regrown lens structure, IEEE Electron Device Letters, 2020.

[202] Wang, Wei; Wang, Yanfeng; Zhang, Minghui; Wang, Ruozheng; Chen, Gendiang; Chan, Xiaohui; Lin, Fang; Wen, Feng; Jia, Kun; Wang, Hong-Xing*; An Enhancement-Mode Hydrogen-Terminated Diamond Field-Effect Transistor With Lanthanum Hexaboride Gate Material, IEEE Electron Device Letters, 2020, 41(4)：585-588.

[203] Wang, Wei; Zou, Yajuan; Lopez-Moreno, Alejandro; Jiang, Yujing; Wen, Feng; Wang, Hong-Xing; Komatsu, Naoki*; Hydrophobic Surface Coating of Nanodiamonds by Polyglycerol-Based Polymers with Alkyl Chains for Dispersing in an Organic Solvent, ChemNanoMat, 2020, 6(9)：1332-1336.

[204] Tianfei Zhu*, Yan Liang, Zongchen Liu, Jiao Fu, Yanfeng Wang, Guoqing Shao, Dan Zhao, Juan Wang, Ruozheng Wang, Qiang Wei, Wei Wang, Feng Wen, Tai Min and Hongxing Wang, “Nanocone Structures Enhancing Nitrogen-Vacancy Center Emissions in Diamonds”, Coatings, 2020, 10(6), 513.

[205] Wang Yanfeng, Wang Hongxing, "Research of MPCVD Single Crystal Diamond Growth and Diamond Electronic Devices", Journal of Synthetic Crystals, 2020,49,11.

[206] Haris Naeem Abbasib , Yan-Feng Wangb , Wei Wangb , Jibran Hussainb , Hong-Xing Wang, "Diamond field effect transistors using bilayer dielectrics Yb2TiO5/Al2O3 on hydrogen-terminated diamond", Diamond & Related Materials, 2020,106,107866.

[207] Jibran Hussain,Haris Naeem Abbasi,Wei Wang,Yan-Feng Wang,Ruozheng Wang,and Hong-Xing Wang, "Hydrogen-terminated diamond field-effect transistor with a bilayer dielectric of HfSiON/Al2O3", AIP Advances, 2020,10,035327.

[208] Yuantao Zhang, Qiang Li, Zhenhuan Tian, Peng Hu, Xiao Qin, Feng YunGas-sensing properties of ITO materials with different morphologies prepared by sputteringSN Appl. Sci.2020:2(2):264.

[209] 王芳，黎东杰，翁明，封国宝，曹猛，张洪太电子辐照介质材料二次电子发射系数与能谱测量数据库真空科学与技术学报2020DOI：10.13922202106016.

[210] Kaichao Jin, Yongdong Li, Feng Li, Milivoj R. Belić, Yanpeng Zhang, and Yiqi ZhangRabi oscillation of azimuthons in weakly nonlinear waveguides"Rabi oscillation of azimuthons in weakly nonlinear waveguidesAdv. Photon.20202, 046002.

[211] Yongfeng Kang*, Jingyi Zhao, Jiaxin Wu, Lei Zhang*, Jian Zhao, Yiqi Zhang*, Yuqing Zhao, and Xiaofei WangSuperior Deep-ultraviolet Source Pumped by an Electron Beam for NLOS CommunicationIEEE Trans. Electron Dev.202067, 3391-3394.

[212] Kaichao Jin, Hua Zhong, Yongdong Li, Fangwei Ye, Yanpeng Zhang, Fuli Li, Chunliang Liu, and Yiqi Zhang*Parametric type-II Dirac photonic latticesAdv. Quantum Technol.20203, 2000015

[213] Hua Zhong, Yongdong Li, Daohong Song, Yaroslav V. Kartashov, Yiqi Zhang*, Yanpeng Zhang, and Zhigang ChenTopological valley Hall edge state lasingLaser & Photon. Rev.2020142000001.

[214] Zhaoyang Zhang, Rong Wang, Yiqi Zhang*, Yaroslav V. Kartashov, Feng Li, Hua Zhong, Hua Guan, Kelin Gao, Fuli Li, Yanpeng Zhang, and Min XiaoObservation of Edge Solitons in Photonic GrapheneNat. Commun.2020111902.

[215] Feng Liu, Jingwen Zhang, Wei-Ping Zhong, Milivoj R. Belić, Yu Zhang, Yanpeng Zhang, Fuli Li, and Yiqi Zhang*Manipulation of Airy beams in dynamic parabolic potentialsAnn. Phys. (Berlin)20205321900584.

[216] 蒋铭3D PIC-MCC simulation of corona discharge in needle-plate electrode with external circuitPLASMA SOURCES SCIENCE & TECHNOLOGY202029(1): 015020.

[217] Rui Fan, Yaogong Wang*, Ying Liu, Xiaoning Zhang, Zhentao Tu, Jun ZhangThe exploration of discharge efficiency and uniformity improvement with pre-ionized bipolar pulse method in DBD devicePhysics of Plasmas202027(8):083508.

[218] Lingguang Liu, Yaogong Wang*, Yuanyuan Lin, Xiaoning Zhang, Yue KuoSi Wafer Dopant Concentration Effect on Light Emission of Solid State Incandescent Light Emitting DevicesJournal of Solid State Science and Technology20209(3):036004.

[219] Lin, Shu; Sun, Peng; Li, Yongdong; Wang*, Hongguang; Liu, ChunliangEnhanced multipactor statistical modeling for accurate threshold pr diction with numerically tracking electron trajectoriesPhysics of Plasmas202027(2): 022115.

[220] Yiqi Zhang, Y. V. Kartashov, A. Ferrando, Yongdong Li, and L. TornerNonlinear higher-order polariton topological insulatorOptics Letters202045(17):4710-4713.

[221] Jianwei Zhang, Wei Luo, Ming Jiang, Hongguang Wang, Yongdong Li and Chunliang LiuPlasma propagation in the microwave window breakdown at the air/dielectric interfacePlasma Sources Science and Technology202029: 025013.

[222] Jianwei Zhang, Ming Jiang, Wei Luo, Hongguang Wang, Yongdong Li, Chunliang LiuStudy on N-2-SF6 mixtures breakdown characteristics at the gas/dielectric interface of microwave windowJournal of Applied Physics2020128(14): 143301.

[223] Kaiyue Wang, Hongguang Wang, Yue Wang, Kun Chen, Chunliang LiuParticle-in-cell simulation of surface plasmon polaritons excited by external introduction of electron densityJournal of Applied Physics2020128(21): 213101.

[224] Liang Zhao, Jian Cang Su, and Chun Liang LiuReview of developments on polymers’ breakdown characteristics and mechanisms on a nanosecond time scaleAIP Advances202010(3):035206.

[225] Liang Zhao and Chun Liang LiuReview and Mechanism of the Thickness Effect of Solid DielectricsNanomaterials20202.13402777777778.

[226] Kun CHEN, Chao CHANG, Yongdong LI, Hongguang WANG, and Chunliang LIUMicrowave frequency downshift in the time-varying collision plasmaPlasma Science and Technology202022 (2):025501.

[227] YanSheng Liu, KaiJie Wu, ChunLiang Liu, GangQiang Cui, Chao Chang, and GuoZhi LiuAmplification of terahertz/infrared field at the nodes of Ranvier for myelinated nerveScience China-Physics, Mechanics & Astronomy202063(7): 274211.

[228] Xiaqi Zhang, Fang Wang, Ming Weng, Meng Cao∗Calculations of energy deposition and ionization in the 2019 novel coronavirus by electron beam irradiationRadiation Physics and Chemistry2020vol177,109169.

[229] 王洪广, 柳鹏飞, 张建威, 李永东, 曹亦兵, 孙钧收集极释气对相对论返波管影响的粒子模拟物理学报201968(18): 185203.

[230] 翁明，谢少毅，殷明，曹猛*介质材料二次电子发射特性对微波击穿的影响物理学报202069(8): 087901.

[231] 陈力驰，王耀功，王文江，麻晓琴，杨静远*，张小宁电催化金属辅助化学刻蚀法制备硅纳米线/多孔硅复合结构无机材料学报2020已录用.

[232] 张贻齐基于第II类狄拉克光晶格的能谷霍尔效应拓扑边界孤子陕西省第一届非线性物理研讨会2020.

[233] 张贻齐第II类狄拉克锥光晶格光学前沿在线：微纳光子学会议2020.

2019

[234] Zhaoyang Zhang, Feng Li, G. Malpuech, Yiqi Zhang, O. Bleu, S. Koniakhin, Changbiao Li, Yanpeng Zhang, Min Xiao, D. D. Solnyshkov, “Particle-like behavior of topological defects in linear wave packets in photonic graphene”, Phys. Rev. Lett. 122(23), 233905 (2019).

[235] Feng Li, Yiming Li, Yin Cai, Peng Li, Haijun Tang, and Yanpeng Zhang, “Tunable open-access microcavities for solid-state quantum photonics and polaritonics”, Adv. Quantum Technol. 2(10), 1900060 (2019). (Invited Review) (Selected as Front Cover of AQT)

[236] Xinghua Li, Ji Wu, Siqi Xiong, Mengting Chen, Hongye Yan, Zhiguo Wang, and Yanpeng Zhang, “Spatial and frequency multimode in dressing parametric amplified multi-wave mixing process”, Photonics Research 7(12), 1454-1460 (2019).

[237] Yuan Feng, Kangkang Li, Irfan Ahmed, Yameng Li, Wei Li, Guangchen Lan, and Yanpeng Zhang, “Generation of a Quadphoton via Seventh-Order Nonlinear Susceptibility”, Ann. Phys. (Berlin) 531(10), 1900072 (2019).

[238] Da Zhang, Irfan Ahmed, Ling Hao, Changbiao Li, Yiqi Zhang, and Yanpeng Zhang, “Temporally correlated narrowband biphoton interference based on Mach-Zehnder interferometer”, Ann. Phys. (Berlin) 531(12), 1900300 (2019).

[239] Peng Li, Taoli Yuan, Feng Li, and Yanpeng Zhang, “Phosphate ion-driven BiPO4:Eu phase transition”, J. Phys. Chem. C 123 (7), 4424-4432 (2019).

[240] Lin Cheng, Zhaoyang Zhang, Lei Zhang, Danmeng Ma, Gaoguo Yang, Tian Dong, and Yanpeng Zhang, “Manipulation of a ring-shaped beam via spatial self-and cross-phase modulation at low intensity”, Phys. Chem. Chem. Phys. 21, 7618 - 7622 (2019).

[241] Junling Che, Jintao Bai, and Yanpeng Zhang, “Space imaging of six-wave mixing in a Rydberg dressing atomic ensemble”, IEEE Photonics Journal 11(2), 7800509 (2019).

[242] Changbiao Li, Bingling Gu, Da Zhang, Wenjie Chen, Zan Shen, Guangchen Lan, and Yanpeng Zhang, “Modulation gain and squeezing by dressed state in hot atomic system”, Laser Phys. Lett. 16 (5), 055401 (2019).

[243] Junling Che, Weiqi Jiang, Guangchen Lan, Shucai Wang, Siwei Xiang, and Yanpeng Zhang, “Spatial Images Evolution of Rydberg Nonlinear Process Controlled by Multiparameter Probe Field”, Opt. Commun. 433, 150-154 (2019).

[244] Zhiguo Wang,Yanyong Sun, Jiawei Yang, and Yanpeng Zhang, “Interferograms of votex FWM beam for nonlinear spatial filter in photonic band gap”, IEEE Photonics Journal 11(1), 6100208 (2019).

[245] Faizan Raza, Al Imran, Xinghua Li, Wei Li, Yameng Li, Jianyong Mao, and Yanpeng Zhang, “Multi-mode correlation with self- and cross-Rabi oscillation in a diamond nitrogen-vacancy center”, Laser Phys. Lett. 16(5), 055402 (2019).

[246] Ruimin Wang, Tianyi Xie, Xinghua Li, Wei Li, Yameng Li, Jianyong Mao, and Yanpeng Zhang, “Competition between polarization-dressing and phonon effect in fourth-order Fluorescence of Pr3+:Y2SiO5”, ACS Omega 4, 1215-1220 (2019).

[247] Abubakkar Khan, Faizan Raza, Irfan Ahmed, Siqiang Zhang, Changbiao Li, Al Imran, and Yanpeng Zhang, “Optical temperature sensor and switch controlled by competition between phonon and polarization dressing in Pr3+: YSO”, OSA Continuum 2(3), 786-796 (2019).

[248] Siqiang Zhang, Faizan Raza, Huanrong Fan, Yuan Feng, Al Imran, Kangkang Li, and Yanpeng Zhang, “Multi-channel optical router of coexisting two- and three-mode bunching”, Phys. Scr. 94, 085503 (2019).

[249] Weiqi Jiang, Xinghua Li, Fan Mu, Jianyong Mao, Yang Liu, and Yanpeng Zhang, “Two- and three-mode intensity-difference squeezing in cascaded four-wave mixing inside an optical cavity”, Laser Phys. Lett. 16(10), 105401 (2019).

[250] Lin Cheng, Kun Wang, Jianyong Mao, Xiao Ming Goh, Zhiqin Chu, Yanpeng Zhang, and Lei Zhang, “Extrinsic Polarization-enabled Covert Plasmonic Colors using Aluminum Nanostructures”, Ann. Phys. (Berlin) 531(9), 1900073 (2019).

[251] Al Imran, Irfan Ahmed, Faizan Raza, Yiming Li, Abubakkar Khan, Habib Ullah, and Yanpeng Zhang, “Temperature switch and router of two and three-mode noise correlation in Pr3+: YSO crystal”, Physica Scripta 94, 125509 (2019).

[252] Yameng Li, Yuan Feng, Wei Li, Kangkang Li, Yang Liu, Yuwei Lan, and Yanpeng Zhang, “Double-dressing tri and quad-photon correlations in spontaneous six and eight-wave mixing”, Physica Scripta 94, 105802 (2019).

[253] Siqiang Zhang, Wei Li , Kangkang Li, Yameng Li, Fan Mu, Yuan Feng, Yang Liu, and Yanpeng Zhang, “Triphoton correlations in six-wave mixing”, Ann. Phys. 411, 168000 (2019).

[254] Lanxiao Huang, Zhiguo Wang, Yanyong Sun, Xinghua Li, and Yanpeng Zhang,“Dressed optical vortex in a hot atomic medium”, Laser Phys. Lett. 16(9), 096001 (2019).

[255] Abubakkar Khan, Faizan Raza,Irfan Ahmed, Changbiao Li, Al Imran, Habib ullah, and Yanpeng Zhang, "Controlling fluorescence and noise correlation by phonon and double dressing in two type of Pr3+: YSO", J. Opt. Soc. Am.B 36(8), 1995-2000 (2019).

[256] Yang Liu, Faizan Raza, Kangkang Li, Habib Ullah, Yanpeng Zhang, Wenfu Zhang, and Wei Zhao, “Logic not gates of intensity-noise correlation and squeezing in diamond Nitrogen Vacancy center”, J. Opt. Soc. Am. B 36(10), 2727-2734 (2019).

[257] Guangchen Lan, Siqiang Zhang, Siwei Xiang, Shucai Wang, Zhiqiang Luo, Irfan Ahmed, and Yanpeng Zhang, “Three-photon polarized entanglement and interference generated using six-wave mixing and polarized dressing atomic coherence control”, OSA Continuum 2(11), 3153-3164 (2019).

[258] Siqiang Zhang, Faizan Raza, Irfan Ahmed, Wei Li, Kaichao Jin, and Yanpeng Zhang, “­­­­Photon interference of second and third order correlation generated by two fluorescence sources”, J. Phys. Commun. 3(9), 095003 (2019).

[259] Al Imran, Irfan Ahmed, Faizan Raza, Feng Yuan, Abubakkar Khan, Ruimin Wang, and Yanpeng Zhang, “Tunable hybrid spectral filter and time-division multiplexing of second-order fluorescence controlled by phonon and dressing on Pr3+:YSO”, Eng. Res. Express 1, 025034 (2019).

[260] Faizan Raza, Al Imran, Abubakkar Khan, Habib Ullah, Siqiang Zhang, Siqi Xiong, Irfan Ahmed, and Yanpeng Zhang, “Hybrid switch of correlation and squeezing using resonant and off-resonant excitation spectrum in Nitrogen-vacancy center diamond”, IEEE Photonics Journal 11(5), 6501110 (2019).

[261] Ruimin Wang, Faizan Raza, Renjun Pang, Abubakkar Khan, Habib Ullah, and Yanpeng Zhang, “Multi-order quantum beating effect of three-photon temporal interference with nondegenerate fluorescence sources”, Results in Phys. 15, 102732 (2019).

[262] Lin Cheng, Jianyong Mao, Kun Wang, Jiangbo Lu, Kun Huang, Yanpeng Zhang, and Lei Zhang, “Rational design of colorimetric sensing for a customer-oriented index range using plasmonic substrates”, J. Opt. Soc. Am.B 36(11), 3168-3173 (2019).

[263] Yang Liu, Yin Cai, Yu Xiang, Feng Li, Yanpeng Zhang, and Qiongyi He, “Tripartite Einstein-Podolsky-Rosen steering with linear and nonlinear beamsplitters in four-wave mixing of Rubidium atoms”, Opt. Express 27(23) 33070-33079 (2019).

[264] Huanrong Fan, Al Imran, Faizan Raza, Irfan ahmed, Kamran Amjad, Peng Li, and Yanpeng Zhang, “Double cascade dressed MOSFET transistor from doped Eu3+and Pr3+ in a host YPO4”, RSC Advances 9, 38828-38833 (2019).

[265] Yang Liu, Kangkang Li, Siqiang Zhang, Huanrong Fan, Wei Li, and Yanpeng Zhang, “Generation of correlated biphoton via four-wave mixing coexisting with multi-order fluorescence processes”, Scientific Reports 9, 20065 (2019).

[266] 龙铭刚，吴胜利*，刘逸为，张劲涛，纳米沟道真空场发射三极管的制备及其特性研究, 真空科学与技术学报, Vol.39, No.5, pp.414-419, 2019年5月.

[267] Shengli Wu*, Yiwei Liu, Xiaoning Zhang, Can Yang, Lingguang Liu, Yaogong Wang and Gang Niu, Performance Enhancement of Solid State Light Emission Device and Geometrically Confinement of Lighting Dots by Using Patterned Wafer Approaches, ECS Transactions, Vol. 90, No.1, pp.129-134, May 2019.

[268] Yiwei Liu, Gang Niu*, Can Yang, Shengli Wu*, Liyan Dai, Oliver Skibitzki. Understanding temperature impact on filament related HfO2 solid state incandescent lighting emission devices and performance enhancement using patterned wafer approaches, IEEE Electron Device Letters, Vol. 40, No. 4, pp.582-585, April 2019.

[269] Wang K, Ruan K, Hu W, et al. Room temperature bonding of Si and Si wafers by using Mo/Au nanoadhesion layers. Microelectronic Engineering, 2019, 215: 111018.

[270] Li J, Hu WB, Hao L, et al. Secondary electron emission enhancement of MgO/Au composite film by adopting a gold buffer layer. Materials Research Bulletin, 2019,118:110493.

[271] Jie Li, Xingkang Yi, Wenbo Hu* , Buyu Gao, Yongdong Li, Shengli Wu, Shu Lin and Jintao Zhang, Substrate temperature dependent microstructure and electron-induced secondary electron emission properties of magnetron sputter-deposited amorphous carbon films, Materials, Vol.12, 2631, Aug. 2019.

[272] Perfect matching of concave diffraction grating with continuously circular Bragg mirrors on SOI platform[J]. Yuzheng Mao, Jingping Zhu, Ke Li, et al. Journal of the Optical Society of America A, 2019, 36 (4): 641-646.

[273] High-Sensitivity and Long-Life Microchannel Plate Processed by Atomic Layer Deposition. Weiwei Cao, Bingli Zhu , Bai Bai, et al. Nanoscale Research Letters 14.1(2019).

[274] Ran, C.; Gao, W.; Li, J.; Xi, J.; Li, L.; Dai, J.; Yang, Y.; Gao, X.; Dong, H.; Jiao, B.; Spanopoulos, I.; Malliakas, C.; Hou, X.; Kanatzidis, M.* and Wu, Z.*, Conjugated Organic Cations Enable Efficient Self-Healing FASnI3 Solar Cells, Joule, 2019, 3, 3072-3087.

[275] Zu, Y.; Dai, J.; Li, L.; Yuan, F.; Chen, X.; Feng, Z.;Li, K.; Song, X.; Yun, F.; Yu, Y.; Jiao, B.; Dong, H.; Hou, X.; Ju, M. *and Wu, Z.*, Ultra-stable CsPbBr3 nanocrystals with near-unity photoluminescence quantum yield via postsynthetic surface engineering, Journal of Materials Chemistry A, 2019, 7, 26116-26122.

[276] Gao, W.; Li, P.; Chen, J.; Ran, C.and Wu, Z.*, Interface Engineering in Tin Perovskite Solar Cells, Advanced Materials Interfaces, 2019, 6, 1901322.

[277] Li, P.; Gao, W.;* Ran, C.; Dong, H.; Hou, X. and Wu, Z.*, Post-Treatment Engineering of Vacuum-Deposited Cs2NaBiI6 Double Perovskite Film for Enhanced Photovoltaic Performance, Phys. Status Solidi A 2019, 216, 1900567.

[278] Zheng, Y.; Su, R.; Xu, Z.; Luo, D.; Dong, H.; Jiao, B.; Wu, Z.; Gong, Q.; Zhu, R.*, Perovskite solar cell towards lower toxicity: a theoretical study of physical lead reduction strategy, Science Bulletin, 64 (2019) 1255-1261.

[279] Wang, G.; Li, J.; Li, Y.; Wang, D.; Zhang, J.; Wu, Y.; Zhen, Y.*, Tang, Q.; Ma, H.*, Hu, W.; Wu, Z. and Alex K.-Y. Jen, A new type of solid-state luminescent 2-phenylbenzo[g]furo[2,3-b]quinoxaline derivative: synthesis, photophysical characterization and transporting properties, Journal of Materials Chemistry C, 2019, 7, 9690-9697 .

[280] Sun, Y.; Yang, X.; Liu, B.; Dang, J.; Li, Y.; Zhou, G.*; Wu, Z.*and Wai-Yeung Wong *, Towards high performance solution-processed orange organic light-emitting devices: preciselyadjusting properties of Ir(III) complexes by reasonably engineering the asymmetric configuration with second functionalized cyclometalating ligands, Journal of Materials Chemistry C, 2019, 7, 8836-8846.

[281] Zhong, D.; Yu, Y.; Song, D.; Yang, X.; Zhang, Y.; Chen, X.; Zhou, G.*, and Wu, Z.*, Organic Emitters with a Rigid 9-Phenyl-9-phosphafluorene Oxide Moiety as the Acceptor and Their Thermally Activated Delayed Fluorescence Behavior, ACS Applied. Materals. Interfaces, 2019, 11, 27112-27124.

[282] Sun, Y.; Yang, X.; Feng, Z.; Liu, B.;Zhong, D.; Zhang, J.; Zhou, G.* and Wu, Z.*, Highly Efficient Deep-Red Organic Light-Emitting Devices Based on Asymmetric Iridium(III) Complexes with the Thianthrene 5,5,10,10-Tetraoxide Moiety, ACS Applied. Materals. Interfaces, 2019, 11, 26152-26164.

[283] Wei, F.; Jiao, B.; Dong, H.*, Xu, J.; Lei, T.; Zhang, J.; Yu, Y.; Ma, L.; Wang, D.; Chen, J.; Hou X. and Wu, Z.*, Bifunctional p-conjugated ligand assisted stable and efficient perovskite solar cell fabrication via interfacial stitching, Journal of Materials Chemistry A, 2019, 7, 16533-16540 .

[284] Xi, J.; Piao, C.; Byeon, J.; Yoon, J.; Wu, Z.* and Mansoo Choi*, Rational Core-Shell Design of Open Air Low Temperature In Situ Processable CsPbI3 Quasi-Nanocrystals for Stabilized p-i-n Solar Cells, Advanced Energy Materals, 2019, 9, 1901787.

[285] Feng, Z.; Yu, Y.; Yang, X.; Zhong, D.; Song, D.; Yang, H.; Chen, X.; Zhou, G.* and Zhaoxin Wu, Z.*, Isomers of Coumarin-Based Cyclometalated Ir(III) Complexes with Easily Tuned Phosphorescent Color and Features for Highly Efficient Organic Light-Emitting Diodes, Inorganic chemistry, 2019, 58, 7393-7408.

[286] Yu, Y.; Ma, L.*; Feng, Z.; Liu, B.; Zhou, H.; Qin, H.; Li, H.; Song, J.; Zhou,G.* and Wu, Z.*, Strategy for achieving effiffifficient electroluminescence with reduced effiffifficiency roll-offff: enhancement of hot excitons spin mixing and restriction of internal conversion by twisted structure regulation using an anthracene derivative, Journal of Materials Chemistry C, 2019, 7, 5604-5614.

[287] Dong, H.; Xi, J.; Zuo, L.; Li, J.; Yang, Y.; Wang, D.; Yu, Y.; Ma, L.; Ran, C.; Gao, W.; Jiao, B.; Xu, J.; Lei, T.;Wei, F.; Yuan, F.; Zhang, L.; Shi, Y.; Hou, X. and Wu, Z.*, Conjugated Molecules “Bridge”: Functional Ligand toward Highly Efficient and Long-Term Stable Perovskite Solar Cell, Advanced Functional Materals, 2019, 29, 1808119 .

[288] Zhang, W.; Lei, X.; Liu, J.; Dong, J.; Yan, X.; Gao, W.; Dong, H.; Ran, C.; Wu, Z., Efficient Charge Collection Promoted by Interface Passivation Using Amino Acid Toward High Performance Perovskite Solar Cells. Physica Status Solidi-Rapid Research Letters 2019, 13 (2).

[289] Yang, X.; Guo, H.; Xu, X.; Sun, Y.; Zhou, G.; Ma, W.; Wu, Z., Enhancing Molecular Aggregations by Intermolecular Hydrogen Bonds to Develop Phosphorescent Emitters for High-Performance Near-Infrared OLEDs. Advanced Science 2019, 6 (7).

[290] Xu, C.; Zhuang, B.; Geng, Y.; Chen, H.; Ren, L.; Wu, Z., A scanning-free wide-field single-fiber endoscopic image retrieval method based on optical transmission matrix. Laser Physics 2019, 29 (4).

[291] Xi, J.; Xi, K.; Sadhanala, A.; Zhang, K. H. L.; Li, G.; Dong, H.; Lei, T.; Yuan, F.; Ran, C.; Jiao, B.; Coxon, P. R.; Harris, C. J.; Hou, X.; Kumar, R. V.; Wu, Z., Chemical sintering reduced grain boundary defects for stable planar perovskite solar cells. Nano Energy 2019, 56, 741-750.

[292] Ran, C.; Gao, W.; Li, N.; Xia, Y.; Li, Q.; Wu, Z.; Zhou, H.; Chen, Y.; Wang, M.; Huang, W., Facet-Dependent Control of PbI2 Colloids for over 20% Efficient Perovskite Solar Cells. Acs Energy Letters 2019, 4 (1), 358-367.

[293] Guo, C.; Sun, Y.; Jia, Q.; Jiang, Z.; Jiang, D.; Wang, G.; Xu, Y.; Wang, T.; Tian, J.; Wu, Z.; Niu, Z., Wide spectrum responsivity detectors from visible to mid-infrared based on antimonide. Infrared Physics & Technology 2019, 96, 1-

[294] Lingling Zhang, Xiaodie Li, Weihua Liu*, Rui Hao, Hongrui Jia, Yanzhu Dai, Muhammad Usman Amin, Hongjun You, Tao Li*, Jixiang Fang*, Highly Active Au NPs Microarray Film for Direct SERS Detection, Journal of Materials Chemistry C, 2019, 7, 15259-15268.

[295] Lingling Zhang, Sida Shen, Liang Cheng,*, Hongjun You, Lu Lu, Chuansheng Ma, Yanzhu Dai, Jixiang Fang*, Phase-change Materials Modified Mesoporous Gold Nanoparticles for Controlled Anticancer Drug Delivery, Nanomedicine, 2019, 14(11), 1443-1454.

[296] Dongjie Zhang, Hongjun You, Lei Yuan, Rui Hao, Tao Li*, Jixiang Fang*. A novel hydrophobic slippery surface-based SERS platform for ultra-sensitive detection in food safety. Analytical Chemistry, 2019, 91 (7), 4687–4695.

[297] Liang Yu, Hongjun You,* Qifan Zhang, Lingling Zhang, Jixiang Fang*, Digestive ripening mechanism investigation in a classical Lee–Meisel method based on in situ UV-vis spectra CrystEngcomm, 2019, 21, 1529-1533.

[298] Y. Xu, L. Yan*, M. Yue and Y. Yu, “Green Hydrothermal Synthesis of Fluorescent Carbon Dots from Glucose and Taurine for Fe3+ and pH Sensing,” Nano 14, 1950014 (2019).

[299] Z. Zhao, W. Tan*, Y. Zheng, M. Wang and X. Liu, “Long-working-distance microscopic imaging through a scattering medium using supercontinuum illumination,” Phys. Scr. 94, 045505 (2019).

[300] Y. Xu, L. Yan*, X. Li, and H. Xu, “Fabrication of transition metal dichalcogenides quantum dots based on femtosecond laser ablation”, Sci. Rep. 9, 2931 (2019).

[301] Y. Yu, Jinhai Si*, L. Yan, M. Liand H. Xu, “ Enhanced nonlinear absorption and ultrafast carrier dynamics in graphene/gold nanoparticles nanocomposites”, Carbon 148, 72-79 (2019).

[302] H. Xu, L. Yan*, Jinhai Si, Y. Xu, and X. Hou, "Femtosecond laser-assisted synthesis of ZnO nanoparticles in solvent with visible emission for temperature sensing", Nano 14 (05), 1950054 (2019).

[303] Y. Yu, L. Yan*, Jinhai Si, Y. Xu, and X. Hou, "Femtosecond laser assisted synthesis of gold nanorod and graphene hybrids and its photothermal property in the near-infrared region", Journal of Physics and Chemistry of Solids 132C, 116-120(2019).

[304] X. Li, L. Yan*, Jinhai Si, H. Xu, and Y. Xu, "Tuning the photoluminescence property of carbon dots by ultraviolet light irradiation", RSC Advances 9, 12732–12736 (2019).

[305] M. Wang, Jinhai Si*, W. Tan, Y. Zheng, and Y. Yang, “Comparison of femtosecond shadowgraphy and optical Kerr gated ballistic imaging for measurements of spray structures”, Optics Express 27, 16080-16087 (2019).

[306] X. Pham, Jinhai Si*, Tao Chen, Zhen Niu, Fengqin Huang, and Xun Hou “Ultra-short DBR fiber laser with high-temperature resistance using tilted fiber Bragg grating output coupler,” Optics Express 27, 38532-38540 (2019).

[307] F. Huang, T. Chen∗, Jinhai Si , X. Pham, and X. Hou, “Fiber laser based on a fiber Bragg grating and its application in high-temperature sensing,” Optics Communication 452, 233(2019).

[308] X. Pham, Jinhai Si*, T. Chen, F. Qin , and X. Hou, “Wide Range Refractive Index Measurement Based on Off-Axis Tilted Fiber Bragg Gratings Fabricated Using Femtosecond Laser,” Journal of Lightwave Technology, 37(13), 3027-3034, (2019).

[309] Y. Yang, W. Tan, Jinhai Si*, J. Li, and S. Tang, “Influences of experimental parameters on characteristics of focusing through scattering media by wavefront shaping,” AIP advances, 9(10), 105014, (2019).

[310] Zhangcheng Liu, Dan Zhao, Tai Min, Juan Wang, Genqiang Chen, and Hong-Xing Wang, Photovoltaic Three-Dimensional Diamond UV Photodetector With Low Dark Current and Fast Response Speed Fabricated by Bottom-Up Method, IEEE ELECTRON DEVICE LETTERS, VOL. 40, NO. 7, JULY 2019.

[311] Dan Zhao, Zhangcheng Liu, Juan Wang, Wenyang Yi, Ruozheng Wang, Kaiyue Wang, and Hongxing Wang, Performance Improved Vertical Diamond Schottky Barrier Diode With FluorinationTermination Structure, IEEE ELECTRON DEVICE LETTERS, VOL. 40, NO. 8, AUGUST 2019.

[312] Dan Zhao, Zhangcheng Liua, Juan Wanga, Wenyang Yi, Ruozheng Wang, Wei Wang, Kaiyue Wang, Hongxing Wang, Reduction in reverse leakage current of diamond vertical Schottky barrier diode using SiNX field plate structure, Results in Physics 13 (2019) 102250.

[313] Dan Zhao, Zhangcheng Liu, Juan Wang, Wenyang Yi, Ruozheng Wang, Wei Wang, Kaiyue Wang, Hong-Xing Wang, Schottky barrier diode fabricated on oxygen-terminated diamond using a selective growth approach, Diamond & Related Materials 99 (2019) 107529.

[314] Liu ZC, Ahmed I, Wen F, et al., Photon bunching and N-photon interference in thermal light. Optics Communications, 434, 104-109 (2019).

[315] Liu ZC, Zhu TF, Wang YF, et al., Fabrication of Diamond Submicron Lenses and Cylinders by ICP Etching Technique with SiO2 Balls Mask, 12, 1622 (2019). Materials.

[316] Jiao Fu, Yanfeng Wang, Juan Wang, Zhangcheng Liu, Ruozheng Wang, Tianfei Zhu, Yan Liang, Guoqing Shao, Zongchen Liu, Dan Zhao, Xiaohui Chang, Minghui Zhang, Hong-Xing Wang, "Fabrication of hundreds of microns three-dimensional single crystal diamond channel along with high aspect ratio by two-step process", Materials Letters, 255, 126556 (2019).

[317] Liang, Y., Zhu, T., Xi, M., Song, Y., Fu, J., Zhao, D., Wang, Y., Wang, J., Wang, K., and Wang, H., 2019, Fabrication of biomimetic compound eye on single crystal diamond: Optics Express, v. 27, no. 15, p. 20508.

[318] Yan-Feng Wang, Wei Wang, Xiaohui Chang, Xiaofan Zhang, Jiao Fu, Zhangcheng Liu, Dan Zhao, Guoqing Shao, Shuwei Fan, Renan Bu, Jingwen Zhang & Hong-Xing Wang, Hydrogen-terminated diamond field-effect transistor with AlOx dielectric layer formed by autoxidation. Scientific reports, 9, 5192 (2019).

[319] Yan-Feng Wang, Wei Wang, Xiaohui Chang, Feng Wen, Haris Naeem Abbasi, Ruozheng Wang, Jiao Fu, Zhangcheng Liu, Dan Zhao, Hong-Xing Wang, Hydrogen-terminated diamond field-effect transistor with a bilayer dielectric of HfSiO4/Al2O3. Diamond & Related Materials,2019,99,107530.

[320] Yan-Feng Wang, Wei Wang, Xiaohui Chang, Haris Naeem Abbasi, Xiaofan Zhang, Ruozheng Wang,Hong-Xing Wang, Performance of hydrogen-terminated diamond MOSFET with bilayer dielectrics of YSZ/Al2O3. Diamond & Related Materials,2019,99,107532.

[321] Minghui Zhang, Fang Lin, WeiWang, Fengnan Li, Yan-Feng Wang, Haris Naeem Abbasi, Dan Zhao, Genqiang Chen, Feng Wen, Jingwen Zhang, Renan Bu and Hongxing Wang*, Ohmic Contact of Pt/Au on Hydrogen-Terminated Single Crystal Diamond, coatings, 9,539 (2019).

[322] Rui Su, ZhangCheng Liu, XiaoHui Chang, Yan Liang, GenQang Chen, XiuLiang Yan, FengNan Li, GuoQing Shao, Jin Pan, Haris Naeem Abbasi, HongXing Wang, Characterization of UV photodetector based on ZnO/diamond film, Opt. Express 27 (2019), 36750-36756.

[323] Zongchen Liu, Irfan Ahmed, Feng Wen∗, Wei Wang, Shuwei Fan, Sijia Hui, Hong-Xing Wang, Photon bunching and N-photon interference in thermal light, Optics Communications, 434 (2019) 104–109.

[324] Qiang Li, Zhenhuan Tian, Yuantao Zhang, Zuming Wang, Yufeng Li,Wen Ding, Tao Wang,Feng Yun3D ITO-nanowire networks  as transparent electrode for all-terrain substrateSci. Rep.2019:9(2):4983.

[325] Qiang Li, Zuming Wang, Yuantao Zhang, Peng Hu, Tao Wang, Feng YunIndium tin oxide nanowires as voltage self-stabilizing supercapacitor electrodesJ. Mater. Res.2019:34(18):3195.

[326] Yonggui Zhai, Hongguang Wang , Lei Zhang , Shu Lin , Yun Li , and Yongdong Li*Effect ofSecondary Emission Yield and Initial Charge of Dielectric Material on Multipactor in Parallel-Plate Dielectric-Loaded WaveguideIEEE Transactions on Electron Devices201966(12): 5333.

[327] Yaogong Wang, Xuan Zhou, Xiaoqin Ma, Xiaoning Zhang*, Chunliang Liu, Dingxin Liu, Sung-Jin Park and J. Gary EdenBranching, Spatial Periodicity, and Confluence of Plasma Waves Propagating in Planar Micro-Dielectric Barrier Discharge DevicesPlasma Sources Science Technology201928(9).

[328] Wei Luo, Yongdong Li*, Hongguang Wang, Chunliang Liu, Fan Guo, Lei Zhang, Yu Gu, Jianwei ZhangMagnetic insulation in a curved vacuum transmission lineJournal of Applied Physics2019125(16): 163302.

[329] Wei Luo,Jianwei Zhang, Yongdong Li*, Hongguang Wang, Chunliang Liu, Fan Guo and Wenkang ZouParticle-in-cell simulations of cathode plasma evolution in small-gap magnetically insulated transmission linesJournal of Applied Physics2019126(24): 243305.

[330] M. Liu, E. Schamiloglu, M. I. Fuks, C. Liu, W. Jiang, J. FengA “crab-like” A6 relativistic magnetron with diffraction output driven by a transparent cathodePhysics of Plasmas201926(1):013301.

[331] Zhang Jianwei, Wang Hongguang, Liu Chunliang, Li Yongdong, Lin Shu, Luo Wei, Zhang, LeiA dynamical model of microwave window breakdown at vacuum/dielectric interfacePhysics of Plasmas201926(9).

[332] M. Liu, Q. Yang, E. Schamiloglu, J. Feng, Y. Teng, M. I. Fuks, W. Jiang, R. Wu, C. Liu, P. ZhangA “crab-like” 12-cavity relativistic magnetron with diffraction output driven by a transparent cathodePhysics of Plasmas201926(10):103301.

[333] Yaogong Wang, Xiaoqin Ma, Long Hu, Xuan Zhou, Zhenxing Wang, Xiaoning ZhangIonization Wave Propagation Characteristics under Different Polarity of Pulse Waveforms in Micro-DBD Device Driven by Bipolar Nanosecond Pulse WaveformPhysics of Plasmas201926( ): 112103.

[334] Zhang Jianwei, Luo Wei, Wang Hongguang, Liu, Chunliang, Li Yongdong, Lin ShuSuppression of high-power microwave window breakdown by the sweeping-out-electron effect with an external dc bias electric fieldPhysics of Plasmas201926(12 ): 123503.

[335] Wei Luo, Yongdong Li*，Hongguang Wang, Fan Guo, Wenkang Zou, PengfeiZhang, Lei Zhang,Yu Gu, Jianwei ZhangParticle-in-cell simulations of current loss in magnetically insulated transmission line with inductive helical supportLaser and Particle Beams201937(3): 301.

[336] Liu Ying, Fan Rui, Zhang Xiaoning, Tu Zhentao, Zhang JunBipolar High Voltage Pulse Generator Without H-bridge Based on Cascade of Positive and Negative Marx GeneratorsIEEE Transactions on Dielectrics and Electrical Insulation201926(2).

[337] Rui Fan, Yaogong Wang*, Xiaoning Zhang, Zhentao Tu, Jun ZhangParameterized nanosecond pulse realization through parametrical modulation of timing sequence of switches in Marx circuitIEEE Transactions on Plasma Science201947(8).

[338] Lei Zhang, Hongguang Wang, Shaoting He, Huan Wei, Yongdong Li*, Chunliang LiuA Segmented Polynomial Model to Evaluate Passive Intermodulation Products From Low-Order PIM MeasurementsIEEE Microwave and Wireless Components Letters201929(1): 14.

[339] Lei Zhang , Hongguang Wang  , Jialin Shen, Huan Wei, Xinbo Wang, Yongdong Li*, Chunliang LiuA Composite Exponential Model to Characterize Nonlinearity Causing Passive Intermodulation InterferenceIEEE Transactions on Electromagnetic Compatibility201961(2): 590.

[340] Ni Zhongfei, Huang Binke, Cao MengAngular Positions Estimation of Spatially Extended Targets for MIMO Radar Using Complex Spatiotemporal Sparse Bayesian LearningIEEE Access20197: 94473.

[341] Long Hu*, Yaogong Wang, Ming XuExperimental study of recovery time of a bulk gallium arsenide avalanche semiconductor switch in low-energy-triggered modeElectronics Letters201955(12): 711.

[342] Chen Kun, Chang Chao, Li Yongdong, Wang Hongguang, Liu ChunliangParticle-in-cell simulation for frequency up-conversion of microwave to terahertz radiation by a relativistic hollow ionization frontAIP Advances20199(11): 115107.

[343] Chen Kun, Chang Chao, Li Yongdong, Wang Hongguang, Liu ChunliangAnalysis of microwave propagation in a time-varying plasma slab with particle-in-cell simulationsPlasma Science & Technology201921(10).

[344] Fan, Rui; Zhang, Xiaoning; Tu, ZhentaoInfluence of ambient temperature on OLED lifetime and uniformity based on modified equivalent lifetime detectionJournal of the Society for Information Display201927(10).

[345] He Zhang, Yaogong Wang*, Ruozheng Wang, Xiaoning Zhang, ChunliangOptimizing the Properties of InGaZnOx Thin Film Transistors by Adjusting the Adsorbed Degree of Cs+ IonsMaterials201912(14): 2300.

[346] Li He, Xiaoning Zhang*, Yaogong Wang, Wenjing WangThe Mechanism of the Electrochemical Oxidation in the Constant Current Mode of the Porous SiliconMaterials Research Express20196: 095020.

[347] Lingguang Liu, Yaogong Wang*, Yuanyuan Lin, Xiaoning Zhang, Yue Kuo, Jinshou TianAuxiliary structure of nano-pinnacle prepared on silicon substrate: Improving the emission intensity by 9 times in SSI-LEDsMaterials Science in Semiconductor Processing201993: 226.

[348] Shengli Wu, Yiwei Liu, Xiaoning Zhang, Can Yang, Lingguang Liu, Yaogong Wang, Gang NiuPerformance Enhancement of Solid State Light Emission Device and Geometrically Confinement of Lighting Dots by Using Patterned Wafer ApproachesECS Transactions201990(1): 129.

[349] 王洪广, 柳鹏飞, 张建威, 李永东, 曹亦兵, 孙钧收集极释气对相对论返波管影响的粒子模拟物理学报201968(18): 185203.

[350] 殷明, 翁明, 刘婉,王芳, 曹猛利用探针法研究二次电子发射过程中介质材料的表面电位西安交通大学学报201953(1): 163.

[351] 麻晓琴, 周璇, 王耀功, 杨静远, 张小宁纳秒脉冲驱动下铝基微沟道 等离子体放电特性研究真空科学与技术学报201939(9): 759.

[352] 刘美琴, Edl Schamiloglu基于超材料的高功率微波源技术概要现代应用物理201910(4): 040502.

[353] 王　玥，李永东，蒋　铭，王洪广三维共形电磁粒子模拟技术研究真空电子技术2019(6): 13.

[354] 保荣, 王洪广, 李永东, 刘纯亮真空电子学太赫兹源的三维粒子模拟建模真空电子技术2019(6): 23.

[355] 林舒, 翟永贵, 张磊, 王洪广, 王瑞, 李永东, 刘纯亮粒子模拟在空间大功率微波器件微放电效应研究中的应用真空电子技术2019(6): 55.

[356] 陈　坤, 王　柯,李永东, 王洪广, 刘纯亮基于时变等离子体的微波频率上转换粒子模拟研究真空电子技术2019(6): 62.

[357] 王耀功纳秒脉冲微等离子体电离波自组织特性研究中国物理学会第二十三届全国静电学术年会, 新疆, 2019.08.06-2019.08.092019.

2018

[358] Zhaoyang Zhang, Liu Yang, Jingliang Feng, Jiteng Sheng, Yiqi Zhang, Yanpeng Zhang, and Min Xiao, “Parity-time-symmetric optical lattice with alternating gain and loss atomic configurations”, Laser Photonics Rev. 12, 1800155 (2018).

[359] Zhiguo Wang, Jiawei Yang, Yanyong Sun, and Yanpeng Zhang, “Interference patterns of vortex beams based on photonic band gap structure”, Opt. Lett. 43(18), 4354-4357 (2018).

[360] Irfan Ahmed, Francis A. M. Manno, Sinai H. C. Manno, Yuanchao Liu, Yanpeng Zhang, and Condon Lau, “Detection of lithium in breast milk and in situ elemental analysis of the mammary gland”, Biomed. Opt. Express 9(9), 4184-4195 (2018).

[361] Zhaoyang Zhang, Xing Liu, Dan Zhang, Jiteng Sheng, Yiqi Zhang, Yanpeng Zhang, and Min Xiao, “Observation of electromagnetically induced Talbot effect in an atomic system”, Phys. Rev. A 97, 013603 (2018).

[362] Kangkang Li, Dan Zhang, Faizan Raza, Zhaoyang Zhang, Pargorn Puttapirat, Yang Liu, and Yanpeng Zhang, “Multi-contact switch using double-dressing regularity of probe, fluorescence, and six-wave mixing in a Rydberg atom”, J. Chem. Phys. 149(7), 074310 (2018).

[363] Irfan Ahmed, Jingwei Yang, Alan Wing Lun Law, Francis A. M. Manno, Rafay Ahmed, Yanpeng Zhang, and Condon Lau, “Rapid and in situ optical detection of trace lithium in tissues”, Biomed. Opt. Express 9(9), 4459-4471 (2018).

[364] Xinghua Li, Dan Zhang, Da Zhang, Ling Hao, Haixia Chen, Zhiguo Wang, and Yanpeng Zhang, “Dressing control of biphotons waveform transition”, Phys. Rev. A 97 (5), 053830 (2018).

[365] Zhaoyang Zhang, Jingliang Feng, Xing Liu, Jiteng Sheng, Yiqi Zhang, Yanpeng Zhang, and Min Xiao, “Controllable Photonic Crystal with Raman Gain in a Coherent Atomic Medium”, Opt. Lett. 43(4), 919-922 (2018).

[366] Kangkang Li, Haijun Tang, Irfan Ahmed, Bingling Gu, Kun Wang, Gaoguo Yang, Renan Bu, and Yanpeng Zhang, “Two-Channel Router of Phase Control Optical Nonreciprocity in Parametric Amplified Four-Wave Mixing”, IEEE Photon. Tech. Lett. 30(6), 561-564 (2018).

[367] Ruimin Wang, Puttapirat Pargorn, Faizan Raza, Irfan Ahmed, Hongxing Wang, and Yanpeng Zhang, “Hybrid correlation and squeezing with spontaneously generated coherence effect”, Laser Phys. Lett. 15, 085401 (2018).

[368] Yanyong Sun, Zhiguo Wang, Zhaoyang Zhang, Bingling Gu, Kun Wang, Gaoguo Yang, and Yanpeng Zhang, “Triple Tailored Nonlinear Dispersion of Dressed Four- and Six-Wave Mixing”, Laser Phys. 28, 065401(2018).

[369] Haijun Tang, Irfan Ahmed, Pargorn Puttapirat, Tianhao Wu, Yuwei lan, Yanpeng Zhang, and Enling Li, “Investigation of multi-bunching by generating multi-order fluorescence of NV center in diamond”, Phys. Chem. Chem. Phys. 20, 5721-5725 (2018).

[370] Junling che, Zhaoyang Zhang, Mingliang Hu, Xuewei Shi, Yanpeng Zhang, “Novel Rydberg eight-wave mixing process controlled in the nonlinear phase of a circularly polarized field”, Opt. Express 26(3), 3054-3066 (2018).

[371] Zhaoyang Zhang, Ji Guo, Bingling Gu, Ling Hao, Gaoguo Yang, Kun Wang, and Yanpeng Zhang, “Parametric Amplification of Rydberg Six- and Eight-Wave Mixing Processes”, Photonics Research 6(7), 713-720(2018).

[372] Kangkang Li, Renan Bu, Xiuxiu Wang, Haixia Chen, Dan Zhang, Xinghua Li, and Yanpeng Zhang, “Flip-flop converter of dual-bistability using cavity and parametric amplified four-wave mixing”, Scientific Reports 8, 2492(2018).

[373] Haijun Tang, Irfan Ahmed, Dan Zhang, Lin Cheng, Junling Che, Enling Li, and Yanpeng Zhang, “Amplifier and Router of dressed parametric amplified four-wave mixing”, IEEE J. Quantum Electron. 54(2), 9100106 (2018).

[374] Xinghua Li, Dan Zhang, Ming Sun, Kangkang Li, Zhiguo Wang, and Yanpeng Zhang, “Multi-dressing suppression and enhancement and all-optical switching in parametrically amplified four-wave mixing”, EPL 122, 14005 (2018).

[375] Zhaoyang Zhang, Danmeng Ma, Jiteng Sheng, Yiqi Zhang, Yanpeng Zhang, and Min Xiao, “Non-Hermitian optics in atomic systems”, J. Phys. B 51, 072001(2018). (Invited Review)

[376] Kangkang Li, Pargorn Puttapirat, Yang Liu, Weiqi Jiang, Al Imran, Mady-Kotta Lysa Marlyne, Renan Bu, and Yanpeng Zhang, “Phase controlled six-wave mixing parametrical amplification to yield correlation light beams”, Laser Phys.28, 075403 (2018).

[377] Lin Cheng, Da Zhang, Junling Che, Irfan Ahmed, Haijun Tang, Zhaoyang Zhang, Yanpeng Zhang, “Multi-dressing and optical pumping effects in nonlinear gain from Parametric-amplification Four-Wave Mixing”, Laser Phys. 28(9), 095401(2018).

[378] Changbiao Li, Mingyu Xu, Weiqi Jiang, Shengqi Wang, Zhiqiang Luo, Bowen Li, Faizan Raza, and Yanpeng Zhang, “Hybrid correlation and squeezing with Rabi oscillation in diamond nitrogen-vacancy center at room temperature”, Laser Phys. 28, 115404 (2018).

[379] Faizan Raza, Irfan Ahmed, Dan Zhang, Al Imran, Abubakkar Khan, Condon Lau, and Yanpeng Zhang, “Bunching and antibunching in four wave mixing NV center in diamond”, AIP Advances 8(10), 105320 (2018).

[380] Ghulam Abbas Khan, Irfan Ahmed, Faizan Raza, Ruimin Wang, Changbiao Li, Yanpeng Zhang, “Spontaneous parametric four wave mixing and fluorescence lifetime manipulation in the diamond nitrogen vacancy center”, J. Opt. Soc. Am. B 35(9), 2137-2143(2018).

[381] Lin Cheng, Xing Liu, Yanyong Sun, Kun Wang, Lei Zhang, and Yanpeng Zhang, “Modulation of High-order Laguerre-Gaussian beam in Dressing Four-wave Mixing”, IEEE J. Quantum Electron. 54(5), 9100205 (2018).

[382] Jiawei Yang, Zhiguo Wang, Yanyong Sun, and Yanpeng Zhang, “Scheme of Optical Transistor Based on Phase Modulation”, Laser Phys. 28, 115402 (2018).

[383] Zhiguo Wang, Yanyong Sun, Abdul Rasheed Mashesar, and Yanpeng Zhang, “Interaction between helical phase and Kerr nonlinear phase in vortex four- and six-wave mixing”, EPL 124 (3), 34004 (2018).

[384] Junling Che and Yanpeng Zhang, “Coherent Excitation and Control of S State Rydberg Six-wave Mixing”, J. Phys. Soc. Jpn. 87(12), 124401(2018).

[385] Zhaoyang Zhang, Yiqi Zhang, Jingliang Feng, Jiteng Sheng, Yanpeng Zhang, and Min Xiao, Parity-time-symmetric optical lattices in atomic configurations (Springer book chapter) (ISBN 978-981-13-1246-5) (Springer-Verlag, Berlin, Heidelberg, (2018).

[386] Kang Yongfeng*, Wei Momo, Zhao Jingyi. High order aberration calculations of a quadrupole–octupole corrector using a differential algebra method [J]. Ultramicroscopy 195 (2018), 21–24.

[387] Buyu Gao, Jie Li, Wenbo Hu; Ling Hao, Shengli Wu, Yongdong Li, Huiqing Fan，Analysis of secondary electron emission properties of MgO/Au composite film with an Al-doped MgO surface layer, AIP Advances, Vol. 8, No. 11, 115031, Nov. 2018.

[388] Jie Li, Wenbo Hu, Kang Wang, Buyu Gao, Yongdong Li, Shengli Wu, Jintao Zhang, Huiqing Fan, Au Doping Effect on the Secondary Electron Emission Performance of MgO Films, Materials,Vol. 11, No.11, pp.2104-1-9, Nov. 2018.

[389] Jie Li，Wenbo Hu，Ling Hao, Buyu Gao, Shengli Wu, Jintao Zhang, Yongdong Li, Huiqing Fan, Electron-induced secondary electron emission of Zn-doped MgO/Au composite film，Materials Letters, Vol. 229, pp.360-363, Oct. 2018.

[390] Yiwei Liu,  Gang Niu*,  Can Yang,  Shengli Wu*,  Liyan Dai,  Haitao Wu, Jintao Zhang, Silicate conductive filaments assisted broadband light emission of HfO₂ high-k solid state incandescent devices, Journal of Materials Chemistry C, Vol. 29, No.6, pp.7913-7919, July 6, 2018.

[391] 吴胜利，龙铭刚，贾东波，张劲涛，王晓，平面底栅型真空场发射三极管，真空电子技术，Vol.334，2018(3)，pp1-5, 2018年6月.

[392] Kongting Wei, Shengli Wu*, Qiang Wei, Pu Zheng, Wenbo Hu and Hongxing Wang, Relationship Between Secondary-Electron Yield and Structure of Polycrystalline Diamond Prepared Under Different Methane Concentrations, Journal of Electronic Materials, Vol.47, No.8, pp. 4823-4830, May 2018.

[393] Jie Li, Wenbo Hu, Wei Qiang, Shengli Wu, Xing Hua and Jintao Zhang, Influence of the substrate temperature on the microstructure and electron induced secondary electron emission properties of MgO/Au composite film, Materials Research Bulletin, Vol.100, pp.308-312, April 2018.

[394] Qiang Wei, Shengli Wu, Kongting Wei, Jie Li, Wenbo Hu and Jintao Zhang, Preparation of MgO/Au Multilayer Composite Films and Related Studies on Secondary Electron Emission Effect, Journal of Electronic Materials, Vol.47, No.1, pp.385-393, Jan. 2018.

[395] Effects of tilted angle of Bragg facets on the performance of successive strips based Bragg concave diffraction grating. Bingzheng Du, Jingping Zhu, Yuzheng Mao, Kai Wang, Huibing Chen, Xun Hou. Optics Communications 410: 338-344 .2018.

[396] Modified model of polarized bidirectional reflectance distribution function for metallic surfaces. Jingping Zhu, Kai Wang, Hong Liu. Optics & Laser Technology，2018, 99:160-166.

[397] Rapid underwater target enhancement method based on polarimetric imaging. Heng Tian, Jingping Zhu, Shuwen Tan, Yunyao Zhang, Optics and Laser Technology, 2018, 108:515-520.

[398] Experimental study on the sensitive depth of backwards detected light in turbid media. Yunyao Zhang, Liqing Huang, Ning Zhang, Heng Tian, Jingping Zhu. Optics Express, 2018, 26(11), 14700-14709.

[399] Polarization-based range-gated imaging in birefringent medium:Effect of size parameter[J]. Heng Tian, Jingping Zhu, Shuwen Tan, et al. Chinese Physics B, 2018. 27(12):124203-124203.

[400] Gao, W.; Ran, C.; Li, J.; Dong, H.; Jiao, B.; Zhang, L.; Lan, X.; Hou, X.; Wu, Z., Robust Stability of Efficient Lead-Free Formamidinium Tin Iodide Perovskite Solar Cells Realized by Structural Regulation. Journal of Physical Chemistry Letters 2018, 9 (24), 6999-7006.

[401] Zhang, L.; Yuan, F.; Dong, H.; Jiao, B.; Zhang, W.; Hou, X.; Wang, S.; Gong, Q.; Wu, Z., One-Step Co-Evaporation of All -Inorganic Perovskite Thin Films with Room-Temperature Ultralow Amplified Spontaneous Emission Threshold and Air Stability. Acs Applied Materials & Interfaces 2018, 10 (47), 40661-40671.

[402] Shi, Y.; Wu, W.; Dong, H.; Li, G.; Xi, K.; Divitini, G.; Ran, C.; Yuan, F.; Zhang, M.; Jiao, B.; Hou, X.; Wu, Z., A Strategy for Architecture Design of Crystalline Perovskite Light-Emitting Diodes with High Performance. Advanced Materials 2018, 30 (25).

[403] Yu, Y.; Ma, L.; Yang, X.; Zhou, H.; Qin, H.; Song, J.; Zhou, G.; Wang, D.; Wu, Z., High Efficiency Fluorescent Electroluminescence with Extremely Low Efficiency Roll-Off Generated by a Donor-Bianthracene-Acceptor Structure: Utilizing Perpendicular Twisted Intramolecular Charge Transfer Excited State. Advanced Optical Materials 2018, 6 (15).

[404] Feng, Z.; Wang, D.; Yang, X.; Jin, D.; Zhong, D.; Liu, B.; Zhou, G.; Ma, M.; Wu, Z., Asymmetric Heteroleptic Ir(III) Phosphorescent Complexes with Aromatic Selenide and Selenophene Groups: Synthesis and Photophysical, Electrochemical, and Electrophosphorescent Behaviors. Inorganic Chemistry 2018, 57 (17), 11027-11043.

[405] Ning, S. et al. Enhanced lasing from organic gain medium by Au nanocube@SiO2 core-shell nanoparticles with optimal size. Optical Materials Express 8, 3014-3022, doi:10.1364/ome.8.003014 (2018).

[406] Dang, W. et al. Asymmetric tris-heteroleptic iridium(iii) complexes containing three different 2-phenylpyridine-type ligands: a new strategy for improving the electroluminescence ability of phosphorescent emitters. Journal of Materials Chemistry C 6, 9453-9464, doi:10.1039/c8tc02940g (2018).

[407] Yang, X. et al. Diarylboron-Based Asymmetric Red-Emitting Ir(III) Complex for Solution-Processed Phosphorescent Organic Light-Emitting Diode with External Quantum Efficiency above 28%. Advanced Science 5, doi:10.1002/advs.201701067 (2018).

[408] Lei, T. et al. Highly-efficient and low-temperature perovskite solar cells by employing a Bi-hole transport layer consisting of vanadium oxide and copper phthalocyanine. Chemical Communications 54, 6177-6180, doi:10.1039/c8cc03672a (2018).

[409] Dong, H. et al. Plasmonic enhancement for high efficient and stable perovskite solar cells by employing "hot spots" Au nanobipyramids. Organic Electronics 60, 1-8, doi:10.1016/j.orgel.2018.05.030 (2018).

[410] Yuan, F. et al. All-Inorganic Hetero-Structured Cesium Tin Halide Perovskite Light-Emitting Diodes With Current Density Over 900Acm(-2) and Its Amplified Spontaneous Emission Behaviors. Physica Status Solidi-Rapid Research Letters 12, doi:10.1002/pssr.201800090 (2018).

[411] Zhang, M. et al. High performance organo-lead halide perovskite light-emitting diodes via surface passivation of phenethylamine. Organic Electronics 60, 57-63, doi:10.1016/j.orgel.2018.05.026 (2018).d-trip imaging through scattering media based on optical transmission matrix. Chinese Optics Letters 16, doi:10.3788/col201816.041102 (2018).

[412] Dai, J. et al. Charge Transport between Coupling Colloidal Perovskite Quantum Dots Assisted by Functional Conjugated Ligands. Angewandte Chemie (International ed. in English), doi:10.1002/anie.201801780 (2018).

[413] Gao, W. et al. High Quality Cs2AgBiBr6 Double Perovskite Film for Lead-Free Inverted Planar Heterojunction Solar Cells with 2.2% Efficiency. Chemphyschem : a European journal of chemical physics and physical chemistry, doi:10.1002/cphc.201800346 (2018).

[414] Zhuang, B. et al. Round-trip imaging through scattering media based on optical transmission matrix. Chinese Optics Letters 16, doi:10.3788/col201816.041102 (2018).

[415] Zhao, J. et al. Cyclometalated Platinum Complexes with Aggregation-Induced Phosphorescence Emission Behavior and Highly Efficient Electroluminescent Ability. Chemistry of Materials 30, 929-946, doi:10.1021/acs.chemmater.7b04708 (2018).

[416] Xi, J. et al. Deciphering perovskite crystal growth in interdiffusion protocol for planar heterojunction photovoltaic devices. Organic Electronics 53, 88-95, doi:10.1016/j.orgel.2017.11.011 (2018).

[417] Ran, C. et al. Bilateral Interface Engineering toward Efficient 2D-3D Bulk Heterojunction Tin Halide Lead-Free Perovskite Solar Cells. Acs Energy Letters 3, 713-721, doi:10.1021/acsenergylett.8b00085 (2018).

[418] Ma, L. et al. Efficient amplified spontaneous emission based on pi-conjugated fluorophore-cored molecules studied by density functional theory. Organic Electronics 57, 123-132, doi:10.1016/j.orgel.2018.02.042 (2018).

[419] Guo, C. et al. Visible-extended mid-infrared wide spectrum detector based on InAs/GaSb type-II superlattices (T2SL). Infrared Physics & Technology 89, 147-153, doi:10.1016/j.infrared.2017.12.020 (2018).

[420] Dong, H. et al. Pseudohalide-Induced Recrystallization Engineering for CH3NH3PbI3 Film and Its Application in Highly Efficient Inverted Planar Heterojunction Perovskite Solar Cells. Advanced Functional Materials 28, doi:10.1002/adfm.201704836 (2018).

[421] Shi, Y. et al. Rubidium Doping for Enhanced Performance of Highly Efficient Formamidinium-Based Perovskite Light-Emitting Diodes. ACS Applied Materials & Interfaces, doi:10.1021/acsami.8b00079 (2018)

[422] Chao Han, Zhaohong Wang*, Yangyang Chu, Xiaodan Zhao, and Xuanru Zhang. Compact flexible multifrequency splitter based on plasmonic graded metallic grating arc waveguide, Optics Letters,2018,43(8):1898-1901.

[423] Yangyang Chu, Yucheng Li, Chengxin Cai, Guangshun Liu; Zhaohong Wang*, and Zhuo Xu. Ultrawide bandgap pentamode metamaterials with asymmetric double-cone outside profile，Journal of Physics D: Applied Physics, 2018, 51:125103.

[424] Hongjun You, Yun Zuo, Yingying Xuan, Fei Shen, Xiaotong Liu, Xiaogang Han*, Jixiang Fang*. Insight of holey-graphene in the enhancing of electrocatalyti cactivity as supporting material. Nanotechnology, 2018, 29, 425708.

[425] Khan Misbah Ullah, Hongjun You,* Dongjie Zhang, Lingling Zhang, Jixiang Fang*, One-step synthesis of non-symmetric CuI nanoplates for high sensitive nonenzymatic glucose biosensor, CrystEngcomm, 2018, 20, 7582-7589.

[426] Jixiang Fang*, Lingling Zhang, Jiang Li, , Lu Lu, Chuansheng Ma, Shaodong Chen, Zhiyuan Li, Qihua Xiong, Hongjun You* A general soft-enveloping strategy in the templating synthesis of mesoporous metal nanostructures, Nature Communications, 2018, 9, 521.

[427] Khan Misbah Ullah, Hongjun You,* Jiang Li, Xiaotong Liu, Lingling Zhang, and Jixiang Fang*, Designing Novel Nonsymmetric Ag/AgI Nanoplates for Superior Photocatalytic Activity, Small, 2018, DOI: 10.1002/smll.201702948.

[428] Dongjie Zhang, Jixiang Fang*, Tao Li*, Sensitive and Portable SERS Detection based on dried-suspended droplets of Au-Ag Alloy Nanourchins, Journal of Colloid and Interface Science. 2018, 514, 217-226.

[429] Lingling Zhang, Jiang Li, Hongjun You*, Chuansheng Ma, Si Lan*, Zhenduo Wu, Jianrong Zeng*, Feng Tian, Jixiang Fang*. In Situ Probing of WO3 Networked Mesocrystal Growth inside a Confined Mesoporous Channels, Small, 2018, 14(4), DOI: 10.1002/smll.201702565.

[430] V. Nguyen, L. Yan*, H. Xu, and M. Yue, “One-step synthesis of multi-emission carbon nanodots for ratiometric temperature sensing,”. Appl. Surf. Sci. 427, 1118–1123 (2018).

[431] W. Tan*, J. Ma, Y. Zheng, and J. Tong, “Femtosecond Optical Kerr Gate With Double Gate Pulses,” IEEE Photon. Tech. Lett. 30, 266-269 (2018).

[432] M. Yue, Jinhai Si*, L. Yan, Y. Yu, and X. Hou, “Enhanced nonlinear optical properties of reduced graphene oxide decorated with silver nanoparticles,” Opt. Mater. Express 8, 698-703 (2018).

[433] C. Chen, X. Hou, and Jinhai Si*, “Carbohydrate-protein interactions characterized by dual polarization hybrid plasmonic waveguide,” Nanotechnology Reviews, 7(1), 11-18 (2018).

[434] Y. Zheng, Jinhai Si,* W. Tan, M. Wang, B. Yang, and X. Hou, “Imaging of high-pressure fuel sprays in the near-nozzle region with supercontinuum illumination,” Opt. Eng. 57(4), 043114 (2018).

[435] X. Pham, Jinhai Si,* T. Chen., R. Wang, L. Yan, H. Cao, and X. Hou, “Demodulation method for tilted fiber Bragg grating refractometer with high sensitivity,” J. Appl. Phys. 123, 174501 (2018).

[436] Y. Ren, W. Tan*, Y. Zheng Y, X. Liu, and J. Tong, “Directional gated imaging in a turbid medium using an ultrafast optical Kerr gate,” Optik, 170, 506–511 (2018).

[437] Y. Yu, L. Yan*, M. Yue, and H. Xu, “Femtosecond laser-assisted synthesis of silver nanoparticles and reduced graphene oxide hybrid for optical limiting,” R. Soc. Open Sci., 5, 1714362 (2018).

[438] H. Xu, L. Yan*, Y. Yu, and Y. Xu, “Facile synthesis of carbon-supported silver nanoparticles for optical limiting,” Appl. Surf. Sci. 457, 655-661 (2018).

[439] C. Chen, X. Hou, and Jinhai Si*, “Theoretical Design of an Integrated Optical Sensor for a Standard Immunoassay,” IEEE Sens. J. 18, 5368-5375 (2018).

[440] C. Chen, X. Hou, and Jinhai Si*, “Design of an integrated optics for transglutaminase conformational change,” Nanotechnology Reviews 7, 283-290 (2018).

[441] Yan-Feng Wang, Xiaohui Chang, Zhangcheng Liu, Zongchen Liu, Jiao Fu, Dan Zhao, Guoqing Shao,Juan Wang, Shaopeng Zhang, Yan Liang, Tianfei Zhu, Wei Wang, Hong-Xing Wang*, Lateral overgrowth of diamond film on stripes patterned Ir/HPHT-diamond substrate. Journal of Crystal Growth, 489, 51-56 (2018).

[442] Feng Wen, Xun Zhang, Huapeng Ye, Wei Wang, Hongxing Wang, Yanpeng Zhang, Zhiping Dai, and Cheng-Wei Qiu, Efficient and Tunable Photoinduced Honeycomb Lattice in an Atomic Ensemble, Laser & Photonics Reviews, 10, (2018) 1800050.

[443] Qiang Li, Yuantao Zhang, Lungang Feng, Zuming Wang, Tao Wang, Feng YunHeavily tin-doped indium oxide nano-pyramids as high-performance gas sensorAIP Advances2018:8(11):115316.

[444] Yufeng Li, Lungang Feng, Feng Li, Peng Hu, Mengqi Du, Xilin Su, Dongxu Sun, Haijun Tang, Qiang Li, Feng YunThree-Dimensional Anisotropic Microlaser from GaN-Based Self-Bent-Up MicrodiskACS Photonics2018:5(11):4259.

[445] Qiang Li, Yuantao Zhang, Lungang Feng, Zuming Wang, Tao Wang, Feng YunInvestigation of the influence of growth parameters on self-catalyzed ITO nanowires by high RF-power sputteringNanotechnology2018:29(16):165708.

[446] Zhenhuan Tian, Yufeng Li, Xilin Su, Lungang Feng, Shuai Wang, Wen Ding, Qiang Li, Ye Zhang, Maofeng Guo, Feng Yun, S.W.Ricky LeeSuper flexible GaN light emitting diodes using microscale pyramid arrays through laser lift-off and dual transferOpt. Express2018:26(2):1817.

[447] Qiang Li, Shuai Wang, Minyan Zhang, Lungang Feng, Xilin Su, Wen Ding, Yufeng Li, Feng YunITO nanowire networks coating on µ-hole arrayed substrate as superbroadband antireflection layerSol. Energy2018:173(3):590.

[448] Minyan Zhang, Qiang Li, Xilin Su, Yufeng Li, Shuai Wang, Lungang Feng, Zhenhuan Tian, Maofeng Guo, Guowei Zhang, Wen Ding, Feng YunCharacteristics of GaN-based 500 nm light-emitting diodes with embedded hemispherical air-cavity structureJ. Appl. Phys.2018:123(12):125702.

[449] Lei Zhang, Yongdong Li, Shu Lin, Hongguang Wang, Chunliang Liu, Jun Li, and Zhuo XuNumerical simulation and analysis of passive intermodulation caused by multipactionPhysics of Plasmas201825: 082301.

[450] He Zhang, Yaogong Wang, Xiaoning Zhang, and Chunliang LiuImprovement of electrical characteristics and stability of IGZO TFT through surface single crystallization of IGZO film at room temperatureSemiconductor Science and Technology201833: 085015.

[451] 刘婉，翁明，殷明，徐伟军，王芳，曹猛宽气压范围空气中微波击穿电场的计算公式强激光与粒子束201830、11、113001.

[452] Ming Weng, Wan Liu, Ming Yin, Fang Wang，Meng Cao Measurement of Secondary Electron Energy Spectra of Polymethyl MethacrylateCHINESE PHYSICS LETTERS201835、4、047901.

[453] Shu Lin, Rui Wang, et alStationary statistical theory of two-surface multipactor regarding all impacts for efficient threshold analysis Physics of Plasmas201825(1): 013536.

[454] Shu Lin, Ning Xia, et al.Multipactor Susceptibility Chart of Coaxial Transmisson Lines with Stationary Statistical ModelingActa Physica Sinica201867(22): 227901.

[455] Yiqi Zhang, Yaroslav V. Kartashov, Yanpeng Zhang, Lluis Torner, and Dmitry V. SkryabinInhibition of tunneling and edge state control in polariton topological insulatorsAPL PHOTONICS20183(12):120801.

[456] Yiqi Zhang, Yaroslav V. Kartashov, Yanpeng Zhang, Lluis Torner, and Dmitry V. SkryabinResonant edge-state switching in polariton topological insulatorsLaser & Photonics Reviews201812(8):1700348.

[457] Junfeng Liu, Yiqi Zhang*, Hua Zhong, Jingwen Zhang, Rong Wang, Milivoj R. Belić, and Yanpeng ZhangOptical Bloch oscillations of a dual Airy beamAnnalen der Physik2018530(4):1700307.

[458] Yaogong Wang, Xiaoning Zhang, Lingguang Liu, Xuan Zhou, Chunliang Liu and Qiaogen ZhangDischarge dynamics of self-oriented microplasma coupling between cross adjacent cavities in micro-structure device driven by a bipolar pulse waveformPhysics of Plasmas201825(4)：043506.

[459] He Zhang, Yaogong Wang, Xiaoning Zhang and Chunliang LiuImprovement of electrical characteristics and stability of IGZO TFT through surface single crystallization of IGZO film at room temperatureSEMICONDUCTOR SCIENCE AND TECHNOLOGY201833(8):085015.

[460] Yaogong Wang, Lingguang Liu, Xiaoning Zhang, Ming Jiang, Chunliang Liu and Qiaogen ZhangPlasma spatial distribution manipulation and electrical property enhancement through plasma coupling effectAIP Advances20188(10):105313.

[461] 王耀功，张小宁，吴胜利，刘纯亮微腔等离子体晶体管综述真空电子技术20183:20-29.

[462] Li Rui, Li Yongdong, Su Jiancang, Yu Binxiong, Xu XiudongA coaxial-output capacitor-loaded annular pulse forming lineReview of Scientific Instruments201889(4):044706.

[463] Zhang Lei, Li Yongdong, Lin Shu, Wang Hongguang, Liu ChunliangNumerical simulation and analysis of passive intermodulation caused by multipactionPHYSICS OF PLASMAS201825(8):082301.

[464] 翟永贵，王瑞，王洪广，林舒，陈坤，李永东介质部分填充平行平板传输线微放电过程分析物理学报201867(15): 157901.

[465] 翟永贵，李记肖，王洪广，林舒，李永东微波器件微放电阈值功率自适应扫描方法强激光与粒子束201830(7): 073006.

[466] 王筱杰，王大威，李永东基于第一性原理计算的空间微波器件低的二次电子发射系数材料的研究机械工程学部201854(9): 115-120.

2017

[467] Changbiao Li, Zihai Jiang, Yiqi Zhang, Zhaoyang Zhang, Feng Wen, Haixia Chen, Yanpeng Zhang, and Min Xiao, “Controlled Correlation and Squeezing in Pr3+:YSO to Yield Correlated Light Beams”, Phys. Rev. Applied 7(1), 014023 (2017).

[468] Da Zhang, Changbiao Li, Zhaoyang Zhang, Yiqi Zhang, Yanpeng Zhang, and Min Xiao, “Enhanced intensity-difference squeezing via energy-level modulations in hot atomic media”, Phys. Rev. A 96(4), 043847 (2017).

[469] Zhaoyang Zhang, Danmeng Ma, Yiqi Zhang, Mingtao Cao, Zhongfeng Xu, and Yanpeng Zhang, “Propagation of Optical Vortices in a Nonlinear Atomic Medium with Photonic Band Gap”, Opt. Lett. 42(6), 1059-1062(2017).

[470] Dan Zhang, Xing Liu, Lingmeng Yang, Xinghhua Li, Zhaoyang Zhang, and Yanpeng Zhang, “Modulated Vortex Six-Wave Mixing”, Opt. Lett. 42(16), 3097-3100 (2017).

[471] Da Zhang, Yiqi Zhang, Xinghua Li, Dan Zhang, Lin Cheng, Changbiao Li, and Yanpeng Zhang, “Generation of High-dimension Energy-Time Entanglement Paired Photons”, Phys. Rev. A 96, 053849 (2017).

[472] Yang Liu, Kangkang Li, Yize Liu, Gaoguo Yang, Kun Wang, and Yanpeng Zhang, “Eight-wave mixing parametrical amplification”, Opt. Express 25(21), 25212-25221 (2017).

[473] Da Zhang, Yiqi Zhang, Zhaoyang Zhang, Ahmed Noor, Yanpeng Zhang, Fuli Li, Milivoj Belic, and Min Xiao, “Unveiling the link between fractional Schrödinger equation and light propagation in honeycomb lattice”, Ann. Phys. (Berlin) 529(9), 1700149 (2017).  (Front Cover Paper)

[474] Peng Li, Yanpeng Zhang, Lei Zhang, Feng Li, Yaxin Guo, Yanghui Li, Weiping Gao, “Phase control of Eu3+-doped YPO4 nano/microcrystals”, Cryst. Growth Des. 17(11), 5935-5944 (2017).

[475] Kangkang Li, Renan Bu, Dan Zhang, Xinghua Li, Mingyuan Wen, Tianhao Nan, and Yanpeng Zhang, “Optical bistablility in Six-wave mixing parametrical amplification”, Opt. Express 25(20) 23556 (2017).

[476] Changbiao Li, Irfan Ahmed, Ghulam A. Khan, Da Zhang, Mingyu Xu, Ruimin Wang, and Yanpeng Zhang, “Polarization controlled hybrid line shape and switching of noise correlation via Autler-Town Splitting”, J. Appl. Phys. 122(16), 163105 (2017).

[477] Dayu Zhu, Yiheng Yang, Da Zhang, Ruizhou Liu, Danmeng Ma, Changbiao Li, and Yanpeng Zhang, “Multi-mode of Four and Six Wave Parametric Amplified Process”, Scientific Reports 7, 43689 (2017).

[478] Zhaoyang Zhang, Danmeng Ma, Jun Liu, Yanyong Sun, Lin Cheng, Ghulam Abbas Khan and Yanpeng Zhang, “Comparison between optical bistabilities versus power and frequency in a composite cavity-atom system”, Opt. Express 25(8), 8916-8925 (2017).

[479] Zhaoyang Zhang, Haixia Chen, Lei Zhang, Da Zhang, Xinghua Li, Yiqi Zhang, and Yanpeng Zhang, “Unveiling the relationship between optical bistability and vacuum Rabi splitting”, EPL 117, 53001 (2017).

[480] Ruimin Wang, Yang Liu, Kangkang Li, Peng Li, Muhammad Owais, and Yanpeng Zhang, “Polarization-dressed correlation and anti-correlation between phase-conjugate four-wave mixing and fourth-order fluorescence”, IEEE J. Quantum Electron. 53(4), 9100306 (2017).

[481] Haijun Tang, Zhaoyang Zhang, Noor Ahmed, Yang Liu, Changbiao Li, Enling Li, and Yanpeng Zhang, “Correlation and squeezing of hybrid signals with or without Autler Town-splitting in Pr3+: YSO crystal”, Appl. Phys. B 123(6), 186 (2017).

[482] Noor Ahmed, Ghulam Abbas Khan, Ruimin Wang, Jingru Hou, Rui Gong, Lingmeng Yang, and Yanpeng Zhang, “Correlation and squeezing for optical transistor and intensity router applications in Diamond NV Center”, Opt. Lett. 42(9), 1788-1791 (2017).

[483] Lin Cheng, Yaling Tian, Yize Liu, Kangkang Li, Yang Liu, Ruizhou Liu, Yanpeng Zhang, “Competition and energy transfer between forward and backward four-wave mixing via atomic coherence”, IEEE J. Quantum Electron. 53(2), 9100205 (2017).

[484] Yongfeng Kang, Yiqi Zhang, Changbiao Li, Hua Zhong, Yanpeng Zhang, and Milivoj R. Belic, “Nonparaxial accelerating electron beams”, IEEE J. Quantum Electron. 53(2), 9200206(2017).

[485] Da Zhang, Yiqi Zhang, Hua Zhong, Changbiao Li, Zhaoyang Zhang, Yanpeng Zhang, and Milivoj Belic, “New face-centered photonic square lattices with flat bands”, Ann. Phys. 382, 160-169 (2017).

[486] Ghulam Abbas Khan, Changbiao Li, Faizan Raza, Noor Ahmed, Abdul Rasheed Mahesar,Irfan Ahmed, Yanpeng Zhang, “Correlation and squeezing for transistor and router application using fluorescence and spontaneous parametric four-wave mixing in Pr3+: YSO”, Phys. Chem. Chem. Phys. 19, 15059 - 15066 (2017).

[487] Irfan Ahmed, Condon Lau, Ruimin Wang, Da Zhang, Xinghua Li, Kangkang Li, Changbiao Li, and Yanpeng Zhang, “Evolution of intensity noise and hybrid correlation”, Laser Phys. 27, 065401 (2017).

[488] Zhaoyang Zhang, Danmeng Ma, Junfeng Liu, Irfan Ahmed, Hao Tian, Junling Che, Haijun Tang, Faizan Raza and Yanpeng Zhang, “Controlling correlations in Rydberg-dressing six-wave mixing process”, Laser Phys. 27, 015403(2017).

[489] Hang Wang, Yunzhe Zhang, Mingyue Li, Danmeng Ma, Ji Guo, Dan Zhang, Yanpeng Zhang, “Scanning Nonreciprocity of Spatial Four-Wave Mixing Process in Moving Photonic Band Gap”, Laser Phys. 27, 035402 (2017).

[490] Yanyong Sun, Abdul Rasheed Mahesar, Zhiguo Wang, Haixia Chen, Yunzhe Zhang, Rui Gong, and Yanpeng Zhang, “Six wave mixing process in photonic band gap”, Laser Phys. 27, 075401(2017).

[491] Irfan Ahmed, Rafay Ahmed, Jingwei Yang, Alan Wing Lun Law, Yanpeng Zhang, and Condon Lau, “Elemental analysis of the thyroid by laser induced breakdown spectroscopy”, Biomed. Opt. Express 8(11), 4865-4871(2017).

[492] Yongfeng Kang*, Xing Liu, Jingyi Zhao*, Tiantong Tang. High order aberrations calculation of a hexapole corrector using a differential algebra method. Nuclear Instruments and Methods in Physics Research A, Volume 846 (2017), P8-12.

[493] 魏强，吴胜利，付马龙，李杰，胡文波，张劲涛，电子轰击下MgO薄膜的二次电子效应的衰减机理，西安交通大学学报，Vol.11，No.51，pp.125-129，2017年11月10日.

[494] Ruozheng Wang, Shengli Wu*, DongBo Jia, Qiang Wei and Jintao Zhang, Influence of different conditions on the electrical perfor  Yiwei Liu, Can Yang, Jinyan Zhao, Shengli Wu*, Liyan Dai and Gang Niu*, HfO₂ high-k solid-state incandescent devices: performance improvement using a Ti-embedded layer and observation of conductive paths as light-emitting sources, Nanotechnology, Vol.28, No.33, 335201 (7pp), July 21, 2017ance of amorphous InGaZnO thin-film transistors with HfO₂/SiN_x stacked dielectrics, Journal of Vacuum Science & Technology B, Vol.35, No.5, 051204(6pp), Aug. 2017.  Chengquan Pei, Shengli Wu, Duan Luo, Wenlong Wen, Junkai Xu, Jinshou Tian*，Minrui Zhang，Pin Chen, Jianzhong Chen, Rong Liu, Traveling Wave Deflector Design for Femtosecond Streak Camera, Nuclear Instruments and Methods in Physics Research A, Vol.855, pp.148-153, Feb.  24, 2017

[495] Ruozheng Wang, Shengli Wu*, Xinyu Li, Jintao Zhang, The electrical performance and gate bias stability of an amorphous InGaZnO thin-film transistor with HfO2 high-k dielectrics, Solid State Electronics, Vol.133, pp.6-9, July, 2017.

[496] 李欣予，王若铮，吴胜利*，李尊朝, 绝缘层材料及结构对薄膜晶体管性能的影响，液晶与显示, Vol.32, No.5, pp.344-351, 2017年5月.

[497] 谭孝青，吴胜利*，王洪广，胡文波，田进寿, 盒栅式电子倍增器模拟计算, 真空科学与技术学报, Vol.37, No.4, pp.380-385, 2017年4月.

[498] Xiao Wang, Zhihua Shen, Shengli Wu*, Jintao Zhang, Wenbo Hu, Vacuum field-effect transistor with a deep submicron channel fabricated by electro-forming, Solid State Electronics, Vol.132,  pp.1-5, March 2017.

[499] Chengquan Pei, JinshouTian, Zhen Liu, Hong Qin, Shengli Wu*, A novel ZVS high voltage power supply for micro-channel plate photomultiplier tubes, Nuclear Instruments and Methods in Physics Research A, Vol.851, pp.43-49, April 11, 2017.

[500] Zhihua Shen, Xiao Wang, Shengli Wu*, JinShou Tian, A new kind of vertically aligned field emission transistor with a cylindrical vacuum channel, Vacuum, Vol.137, pp.163-168, March 1, 2017.

[501] Jie Li, Wenbo Hu, Wei Qiang, Shengli Wu, Xing Hua, Jintao Zhang, Electron-Induced Secondary Electron Emission Properties of MgO/Au Composite Thin Film Prepared by Magnetron Sputtering, Journal of Electronic Materials, Vol.46, No.3, pp.1466-1475, March, 2017.

[502] Wenbo Hu, Wei Zhao, Jinlong Fan, Shengli Wu, Jintao Zhang, Emission Properties of Porous Silicon Electron Emitters Formed by Pulsed Anodic Etching, Journal of Electronic Materials, Vol. 46, No. 2, pp.895-902, Feb. 2017.

[503] Lingliang Liang, Jinshou Tian, Tao Wang, Shengli Wu, Fuli Li, Guilong Gao, Depth profiling of the refractive index from probe beam deflections induced by a serrated pump illumination on GaAs, Journal of Modern Optics, Vol.64, No.5, pp.431-438, 2017.

[504] Polarized BRDF for coatings based on three-component assumption. Hong Liu, Jingping Zhu, Kai Wang, Rong Xu, Optics Communications, 384: 118-124, 2017.

[505] A design method based on photonic crystal theory for Bragg Concave Diffraction Grating. Bingzheng Du, Jingping Zhu, Bao Li, Yuzheng Mao, Yunyao Zhang and Xun Hou, Optics Communications, 385: 92-96, 2017.

[506] Degree of polarization based on the three-component pBRDF model for metallic materials. Kai Wang, Jingping Zhu, Hong Liu, Xun Hou, Chinese Physics B, 26(2):254-259. 2017.

[507] Expression of the degree of polarization based on the geometrical optics pBRDF model. Kai Wang, Jingping Zhu, Hong Liu,And Bingzheng Du [J]. Journal of the Optical Society of America A Optics Image Science & Vision 34(2):259. 2017.

[508] Effects of Bragg periods per grating period on performance of Bragg concave diffraction grating. Bingzheng Du, Jingping Zhu, Yuzheng Mao, Acta Physica Sinica, 66(22):224202. 2017.

[509] Influence of particle size on polarization-based range-gated imaging in turbid media. Heng Tian, Jingping Zhu, Shuwen Tan, Yunyao Zhang, Xun Hou, AIP ADVANCES 7, 095310 .2017.

[510] Design and analysis of concave diffraction grating with one-dimensional photonic bandgap structure. Yuzheng Mao, Jingping Zhu, Bingzheng Du, Optical and Quantum Electronics, 49 (8): 263. 2017.

[511] Monte Carlo model of light transport in multi-layered tubular organs. Yunyao Zhang, Jingping Zhu, Ning Zhang, Society of Photo-Optical Instrumentation Engineers. Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 2017:102500D.

[512] Liu, Boao ; Dang, Feifan; Tian, Zhuanzhuan; Feng, Zhao; Jin, Deyuan; Dang, Wanping ; Yang, Xiaolong; Zhou, Guijiang; Wu, Zhaoxin,High Triplet Energy Level Achieved by Tuning the Arrangement of Building Blocks in Phosphorescent Polymer Backbones for Furnishing High Electroluminescent Performances in Both Blue and White Organic Light-Emitting Devices,ACS APPLIED MATERIALS & INTERFACES, 2017.9.19:16360-16374.

[513] Zhao, Jiang; Dang, Feifan; Liu, Boao ; Wu, Yong; Yang, Xiaolong; Zhou, Guijiang; Wu, Zhaoxin; Wong, Wai-Yeung,Bis-Zn-II salphen complexes bearing pyridyl functionalized ligands for efficient organic light-emitting diodes (OLEDs), DALTON TRANSACTIONS, 2017,46,18:6098-6110 .

[514] Guo Chun-Yan; Xu Jian-Xing) ; Peng Hong-Ling ; Ni Hai-Qiao ; Wang Tao ; Tian Jin-Shou; Niu Zhi-Chuan ; Wu Zhao-Xin ; Zuo Jian ; Zhang Cun-Lin;Transfer process of LT-GaAs epitaxial films for on-chip terahertz antenna integrated device;JOURNAL OF INFRARED AND MILLIMETER WAVES;2017.36.2:220.

[515] Zhang, Wenfei; Liang, Jian; Ren, Liyong ; Ju, Haijuan; Qu, Enshi; Bai, Zhaofeng; Tang, Yao; Wu, Zhaoxin;Real-time image haze removal using an aperture-division polarimetric camera;APPLIED OPTICS; 2017.56.4:942-947.

[516] Ran, Chenxin ; Wu, Zhaoxin ; Xi, Jun ; Yuan, Fang ; Dong, Hua ; Lei, Ting; He, Xin; Hou, Xun;Construction of Compact Methylammonium Bismuth Iodide Film Promoting Lead-Free Inverted Planar Heterojunction Organohalide Solar Cells with Open-Circuit Voltage over 0.8 V;JOURNAL OF PHYSICAL CHEMISTRY LETTERS; 2017.8.2:394-400.

[517] Guo, Haoran; Zhao, Jiang ; Tian, Zhuanzhuan ; Wu, Yong ; Liu, Boao ; Dang, Feifan); Yang, Xiaolon; Zhou, Guijiang; Wu, Zhaoxin; Wong, Wai-Yeung;Homoleptic thiazole-based Ir-III phosphorescent complexes for achieving both high EL efficiencies and an optimized trade-off among the key parameters of solution-processed WOLEDs;JOURNAL OF MATERIALS CHEMISTRY C;2017.5.1:208-219.

[518] Chen Nana; Fan Shuwei; Wu Zhaoxin ; JJiao Bo ; SShen Li Jia So, F; Adachi, C; Kim, JJ;Simulation and optimization for the optical performance of Top-emitting OLED;ORGANIC LIGHT EMITTING MATERIALS AND DEVICES XXI.2017.10362.

[519] Zhang, Wenfei ; Liang, Jian ; Ju, Haijuan ; Ren, Liyong; Qu, Enshi; Wu, Zhaoxin;Study of visibility enhancement of hazy images based on dark channel prior in polarimetric imaging;OPTIK;2017.130: 123-130.

[520] Ren, Kaili ; Ren, Liyong ; Liang, Jian ; Kong, Xudong ; Ju, Haijuan; Wu, Zhaoxin,Online and Efficient Fabrication of Helical Long-Period Fiber Gratings,IEEE PHOTONICS TECHNOLOGY LETTERS,2017.29.14: 1175-1178 .

[521] Zhao, Jiang ; Dang, Feifan ; Feng, Zhao ; Liu, Boao ; Yang, Xiaolong ; Wu, Yong; Zhou, Guijiang ; Wu, Zhaoxin ; Wong, Wai-Yeung,Highly efficient electroluminescent Pt-II ppy-type complexes with monodentate ligands,CHEMICAL COMMUNICATIONS,2017.53.54:7581-7584 .

[522] Ren, Kaili ; Ren, Liyong Liang, Jian ; (Kong, Xudong ; Ju, Haijuan ; Wu, Zhaoxin,Highly Strain and Bending Sensitive Microtapered Long-Period Fiber Gratings,IEEE PHOTONICS TECHNOLOGY LETTERS, 2017.29.13:1085-1088.

[523] Liu, Boao; Dang, Feifan;Feng, Zhao; Tian, Zhuanzhuan ;Zhao, Jiang ; Wu, Yong; Yang, Xiaolong ;hou, Guijiang ;Wu, Zhaoxin; Wong, Wai-Yeung;Novel iridium(III) complexes bearing dimesitylboron groups with nearly 100% phosphorescent quantum yields for highly efficient organic light-emitting diodes;JOURNAL OF MATERIALS CHEMISTRY C,2017.5:7871-7883.

[524] Yang, Xiaolong ; Yan, Xiaogang ; Guo, Haoran Liu, Boao ;Zhao, Jiang ; Zhou, Guijiang ; (Wu, Yong ; Wu, Zhaoxin ; Wong, Wai-Yeung;Charged dinuclear Cu(I) complexes for solution-processed single emitter warm white organic light-emitting devices;DYES AND PIGMENTS;2017.143:151-164.

[525] Zhang, Wenfei ;Liang, Jian ; Ren, Liyong ; Ju, Haijuan ; Bai, Zhaofeng; Wu, Zhaoxin;Fast polarimetric dehazing method for visibility enhancement in HSI colour space;JOURNAL OF OPTICS;2017.19.9 .

[526] Ning,Shuya;Wu,Zhaoxin;Zhang,Naming;Ding, Lei ;Hou, Xun ;Zhang, Fanghui;Plasmonically enhanced lasing by different size silver nanoparticlessilver film hybrid structure;ORGANIC ELECTRONICS;2017,50:403-410.

[527] Zhao, Jiang ; Liu, Boao ; Feng, Zhao ; Jin, Deyuan;Dang, Wanping ; Yang, Xiaolong ; Zhou, Guijiang ; Wu, Zhaoxin ; Wong, Wai-Yeung;Coordination polymers based on bis-Zn-II salphen complexes and functional ditopic ligands for efficient polymer light-emitting diodes (PLEDs);POLYMER CHEMISTRY; 2017,8.41：6368-6377.

[528] Fang Yuan†, Zhaoxin Wu*† , Hua Dong†, Jun Xi†, Kai Xi§, Giorgio Divitini§, Bo Jiao†, Xun Hou†, Shufeng Wang‡, and Qihuang Gong‡ “High Stability and Ultralow Threshold Amplified Spontaneous Emission from Formamidinium Lead Halide Perovskite Films”J. Phys. Chem. C, 2017, 121 (28), pp 15318–15325.

[529] Yu, Yue; Ma, Lin ; Wang, Dongdong] ; Zhou, Huixin ; Yao, Bo; Wu, Zhaoxin;Suppression of efficiency roll-off in TADF-OLEDs using Ag-island nanostructures with localized surface plasmon resonance effect;ORGANICELECTRONICS;2017.51：173-179.

[530] Jun Xi, Zhaoxin Wu,* Bo Jiao, Hua Dong, Chenxin Ran, Chengcheng Piao, Ting Lei,Tze-Bin Song, Weijun Ke, Takamichi Yokoyama, Xun Hou, and Mercouri G. Kanatzidis*Multichannel Interdiffusion Driven FASnI3 Film FormationUsing Aqueous Hybrid Salt/Polymer Solutions toward Flexible Lead-Free Perovskite Solar Cells, Advanced Materials,2017, 1606964 .

[531] Guo, Haoran,Zhao, Jiang,Tian, Zhuanzhuan,Wu, Yong,Liu, Boao,Dang, Feifan,Yang, Xiaolong,Zhou, Guijiang*,Wu, Zhaoxin*,Wong, Wai-Yeung*,Homoleptic thiazole-based Ir-III phosphorescent complexes for achieving both highEL efficiencies and an optimized trade-off among the key parameters of solution-processed WOLEDs, Journal of Materials Chemistry C,2017.01.01,5(1)：208~219.

[532] Chenxin Ran, Zhaoxin Wu,*Jun Xi, Fang Yuan, Hua Dong, Ting Lei, Xin He, and Xun Hou,Construction of Compact Methylammonium Bismuth Iodide Film Promoting Lead-Free Inverted Planar Heterojunction Organohalide Solar Cells with Open-Circuit Voltage over 0.8 V,J. Phys. Chem. Lett. 2017, 8, 394−400.

[533] Zhaohong Wang*, Guangshuan Liu, Chengxin Cai,Yucheng Li, Zhuo Xu. Connection overlap deviation analysis of pentamode metamaterials, Journal of Physics D: Applied Physics, 2017, 50:485102.

[534] Chao Han, Yangyang Chu, Zhaohong Wang*, and Xiaodan Zhao. Spoof surface plasmonic waveguide devices with compact length and low-loss, Journal of Applied Physics, 2017,122: 123301.

[535] Zhaohong Wang*, Yangyang Chu, Chengxin Cai, Guangshun Liu, and Michael R. Wang. Composite pentamode metamaterials with low frequency locally resonant characteristics, Journal of Applied Physics, 2017, 122(2):025114.

[536] Chengxin Cai, Zhaohong Wang, Yangyang Chu, Guangshun Liu and Zhuo Xu. The phononic band gaps of Bragg scattering and locally resonant pentamode metamaterials, Journal of Physics D: Applied Physics, 2017, 50(41):415105.

[537] Cong Ma, Qiangqiang Gao, Wei Hong, Jie Fan, Jixiang Fang*, Real-time probing nanopore-in-nanogap plasmon coupling effect on silver supercrystals with surface-enhanced Raman spectroscopy, Advanced Functional Materials, 2017, 27(2), 1603233.

[538] Y. Ren, Jinhai Si*, W. Tan, Y. Zheng, J. Tong, and X. Hou, “Speckle suppression of okg imaging in highly turbid medium using sc-assisted fundamental frequency,” IEEE Photon. Tech. Lett. 29(1), 106-109 (2017).

[539] M. Yue, Jinhai Si*, L. Yan, and X. Hou, “Time- and frequency-resolved determination of ultrafast energy transfer in optical Kerr measurements,” Appl. Phys. B. 123, 53-1-6 (2017).

[540] H. Xu, L. Yan*, V. Nguyena, Y. Yu, and Y. Xu, “One-step synthesis of nitrogen-doped carbon nanodots for ratiometric pH sensing by femtosecond laser ablation method,” Appl. Surf. Sci. 414, 238–243 (2017).

[541] Y. Zheng, W. Tan*, X. Liu, and J. Tong, "Ballistic imaging through an intense scattering medium using a supercontinuum with a roundabout spatial gate," Opt. Express 25, 20431-20436 (2017).

[542] R. Wang, Jinhai Si*, T. Chen, et al, “Fabrication of high-temperature tilted fiber Bragg gratings using a femtosecond laser,” Opt. Express 25, 23684-23689 (2017).

[543] Y. Zheng, Jinhai Si*, W. Tan,Y. Ren, J. Tong, and X. Hou, “Imaging transparent objects in a turbid medium using a femtosecond optical Kerr gate”, Chin. Phys. Lett., 34(10), 104204-1-6 (2017).

[544] Y. Du, T. Chen, Y. Zhang, R. Wang, H. Gao, and K. Li, “Fabrication of Phase-shifted Fiber Bragg Grating by Femtosecond Laser Shield Method,” IEEE Photon. Tech. Lett., (2017).

[545] M. Yue, L. Yan*, Y. Xu, V. Nguyen, and T. Chen, “Intense and collimated supercontinuum generation using microlens array,”. IEEE Photon. Tech. Lett. 29, 2031-2034 (2017).

[546] C. Chen, X. Hou, and Jinhai Si*, "Protein analysis by Mach-Zehnder interferometers with a hybrid plasmonic waveguide with nano-slots," Opt. Express 25, 31294-31308 (2017).

[547] Fengnan Li, Jingwen Zhang, Xiaoliang Wang, Minghui Zhang and Hongxing Wang, Fabrication of Low Dislocation Density Single-Crystalline Diamond via Two-Step Epitaxial Lateral Overgrowth. Crystals 2017, 7, 114.

[548] Fengnan Li, Jingwen Zhang, Xiaoliang Wang, Minghui Zhang and Hongxing Wang, Barrier Heights of Au on Diamond with Different Terminations Determined by X-ray Photoelectron Spectroscopy. COATINGS 2017, 7(7).

[549] Feng Wen, H. P. Ye, X. Zhang, W. Wang, S. k. Li, H. X. Wang, Y. P. Zhang, and C. W. Qiu, Optically induced atomic lattice with tunable near-field and far-field diffraction patterns. Photonics Research, 5, (2017) 676 .

[550] Xiaoli Wang, Zepei Li, Feng Wen*, HongXing Wang, Peng Mai, Controllable visibility and resolution of Nthorder Talbot imaging with pseudo-Thermal Light. Optics Express, 25, (2017) 13455 .

[551] Feng Wen, Wei Wang*, Irfan Ahmed, Hongxing Wang*, Yiqi Zhang, Yanpeng Zhang, Abdul Rasheed Mahesar, and Min Xiao, Two-dimensional Talbot self-imaging via Electromagnetically induced lattice. Scientific Reports. 7, 41790 (2017) .

[552] Zongchen Liu, Irfan Ahmed, Garuma Abdisa, Zihai Jiang, Shuwei Fan, Hongxing Wang & Yanpeng Zhang，Hybrid Three-Mode Correlation and Squeezing in a Pr3+:YSO Crystal，Sci Rep. 7 1743 (2017).

[553] Tian-Fei Zhu, Jiao Fu, Wei Wang, Feng Wen, Jingwen Zhang, Renan Bu, Mingtao Ma, And Hong-Xing Wang, Fabrication of diamond microlenses by chemical reflow method, Optics Express. 25,1185 (2017) .

[554] Yukun Zhao, Feng Yun, Yi Huang, Shuai Wang, Lungang Feng, Yufeng Li, Maofeng Guo, Wen Ding, Ye ZhangMetamaterial study of quasi-three-dimensional bowtie nanoantennas at visible wavelengthsSci. Rep.2017:7(2):41966.

[555] Yufeng Li, Shuai Wang, Weihan Tang, Qiang Li, Maofeng Guo, Ye Zhang, Minyan Zhang, Feng Yun, Xun HouEfficiency droop suppression of distance-engineered surface plasmon-coupled photoluminescence in GaN-based quantum well LEDsAIP Advances2017:7(11):2158.

[556] Qiang Li, Feng Yun, Yufeng Li, Wen Ding, Ye ZhangFabrication and application of indium-tin-oxide nanowire networks by polystyrene-assisted growthSci. Rep.2017:7(10):1600.

[557] Yukun Zhao, Feng Yun, Shuai Wang, Lungang Feng, Xilin Su, Yufeng Li, Maofeng Guo, Wen Ding, Ye ZhangMechanism of suppressing efficiency droop by modulating the thickness of quantum barriers in light emitting diodesJ. J. Appl. Phys.2017:56(2):062101.

[558] Yukun Zhao, Feng Yun, Lungang Feng, Shuai Wang, Yufeng Li, Xilin Su, Maofeng Guo, Wen Ding, Ye ZhangImproving peak-wavelength method to measure junction temperature by dual-wavelength ledsIEEE Access2017:5:11712

[559] Yufeng Li, Lungang Feng, Xilin Su, Qiang Li, Feng Yun, Ge Yuan, Jung HanWhispering gallery mode lasing from InGaN/GaN quantum well microtubeOpt. Express2017:25(15):18072.

[560] Zhenhuan Tian, Yufeng Li, Xilin Su, Lungang Feng, Shuai Wang, Minyan Zhang, Wen Ding, Qiang Li, Ye Zhang, Maofeng Guo, Feng Yun, S.W.Ricky LeeGrowth , characterization and application of well-defined separated GaN-based pyramid arrary on micropatterned sapphire substrateAppl.Phys.Express2017:10:092101.

[561] Qiang Li, Lungang Feng, Shuai Wang, Yufeng Li, Feng YunControlled synthesis of polystyrene-assisted tin-doped indium oxide nanowire networksJ.Mater.Res.2017:1(8):1.

[562] Hongguang Wang, Jianwei Zhang, Yongdong Li, Shu Lin, Pengfeng Zhong, and Chunliang Liu2D particle-in-cell simulation of the entire process of surface flashover on insulator in vacuumPhysics of Plasmas201825(4): 043522

[563] Kun Chen, Chunliang Liu, Mingzhu Gao, and Chao ChangParticle-in-cell simulation for frequency up-conversion of microwave pulse in a rapidly created plasmaPhysics of Plasmas201724: 033507.

[564] Rong Bao, Hongguang Wang, Ruxia Zhang, Yongdong Li, and Chunliang LiuObjective quantification of mode competition in THz BWO optimizationPhysics of Plasmas201724: 113101.

[565] 高明珠, 陈　坤, 常　超, 刘纯亮时变等离子体高功率微波频率上转换的粒子模拟强激光与粒子束201729(6): 063002.

[566] 何兆, 张小宁, 梁志虎, 刘纯亮新型铝基共面微腔等离子体阵列在氖气中放电的光特性研究真空科学与技术学报201737(4): 418.

[567] Rong Bao; Hongguang Wang*; Ruxia Zhang; Yongdong Li; Chunliang LiuObjective quantificat ion of mode competition in THz BWO optimizationPHYSICS OF PLASMAS201724(11):113101.

[568] Yiqi Zhang, Rong Wang, Hua Zhong, Jingwen Zhang, Milivoj R. Belić, and Yanpeng ZhangOptical Bloch oscillation and Zener tunneling in the fractional Schrödinger equationScientific Reports20177:17872.

[569] Yiqi Zhang, Rong Wang, Hua Zhong, Jingwen Zhang, Milivoj R. Belić, and Yanpeng ZhangResonant mode conversions and Rabi oscillations in fractional Schrödinger equationOptics Express201725(26):32401-3241.

[570] Yiqi Zhang, Yaroslav V. Kartashov, Feng Li, Zhaoyang Zhang, Yanpeng Zhang, Milivoj R. Belić, and Min Xiao"Edge states in dynamical superlatticesACS Photonics20174(9):2250-2256.

[571] Da Zhang, Yiqi Zhang*, Zhaoyang Zhang, Noor Ahmed, Yanpeng Zhang, Fuli Li, Milivoj R. Belić, and Min XiaoUnveiling the link between fractional Schrödinger equation and light propagation in honeycomb latticeAnnalen der Physik2017529(9):1700149.

[572] Da Zhang, Yiqi Zhang*, Hua Zhong, Changbiao Li, Zhaoyang Zhang, Yanpeng Zhang, and Milivoj R. BelićNew edge-centered photonic square lattices with flat bandsAnnals of Physics2017382(7):160-169.

[573] Yiqi Zhang, Da Zhang, Zhaoyang Zhang, Changbiao Li, Yanpeng Zhang, Fuli Li, Milivoj R. Belić, and Min XiaoOptical Bloch Oscillation and Zener Tunneling in an Atomic SystemOptica20174(5):571-575.

[574] Yiqi Zhang, Hua Zhong, Milivoj R. Belić, and Yanpeng ZhangGuided Self-Accelerating Airy Beams — a Mini-ReviewApplied Science20177:341.

[575] Yongfeng Kang, Yiqi Zhang*, Changbiao Li, Hua Zhong, Yanpeng Zhang, and Milivoj R. BelićNonparaxial accelerating electron beamsIEEE Journal of Quantum Electronics201753(2):9200206.

[576] Hua Zhong, Yiqi Zhang*, Yi Zhu, Da Zhang, Changbiao Li, Yanpeng Zhang, Fuli Li, Milivoj R. Belić, and Min XiaoTransport properties in the photonic super-honeycomb lattice — a hybrid fermionic and bosonic systemAnnalen der Physik2017529(3):1600258.

[577] Cao, Meng; Nishi, Ryuji; Wang, FangAutomatic system for electron tomography data collection in the ultra-high voltage electron microscope Micron43070卷103，页29-33.

[578] Cao, Meng; Zhang, Xiu-Sheng; Liu, Wei-Hua; Wang, Hong-Guang; Li, Yong-DongSecondary electron emission of graphene-coated copperDIAMOND AND RELATED MATERIALS42795卷73,页199-203.

[579] Zhang, Na ; Cao, Meng ; Cui, Wan-Zhao; Hu, Tian-Cun Effect of rough surface morphology on secondary electron emission from metal surfaceJAPANESE JOURNAL OF APPLIED PHYSICS2017卷56,期7,文献号075802.

[580] Wenjiang Wang, Li He, Xiaoning Zhang and He ZhangImproved Electron Emission Properties of the Porous Silicon Emitter by Chemical Surface ModificationSemiconductor Science and Technology201732(8):085006.

[581] Li He, Wenjiang Wang and Xiaoning ZhangImprovement of electron emission characteristics of porous silicon emitter by using cathode reduction and electrochemical oxidationApplied Surface Science2017399:592-598.

[582] Zhao He, Zhihu Liang, Xiaoning Zhang and Chunliang LiuInfluence of copper nanowires grown in a dielectric layer on the performance of dielectric barrier dischargeJOURNAL OF VACUUM SCIENCE & TECHNOLOGY B201735(1):010603.

[583] Lingguang Liu, Xiaoning Zhang, Bojiang Yu and Yuanyuan LinThe Influence of the multilayer ZnO-HfOx structure on the characteristics of a lightemitting deviceSemiconductor Science and Technology201732(5):055009.

[584] 王新波，张小宁，李永东，王洪广，刘纯亮多载波微放电阈值的粒子模拟及分析物理学报201755(15):9.

[585] 王新波，张小宁，李永东基于修正差分进化算法确定周期内多载波微放电等效功率中国空间科学技术201737(2):7.

[586] 何兆，张小宁，梁志虎，刘纯亮新型铝基共面微腔等离子体阵列在氖气中放电的光特性研究真空科学与技术学报201737(4):6.

[587] Jiang Ming, Li Yongdong*, Wang Hongguang, Liu Chunliang3D PIC-MCC simulations of positive streamers in air gapsPHYSICS OF PLASMAS201724(10):102112.

[588] Chang Chao, Li Yongdong, J. P. VerboncoeurSuppressing double-metal-surface resonant multipactor by three dimensional wavy surfacePHYSICS OF PLASMAS201724(4):040702.

[589] 王新波，张小宁，李韵，崔万照，张洪太，李永东，王洪广多载波微放电阈值的粒子模拟及分析物理学报201766(15): 157901.

[590] 王新波，张小宁，李永东，刘纯亮基于修正差分进化算法确定周期内多载波微放电等效功率中国空间科学技术201737(2): 66-72.

[591] 李姝敏，李永东，刘震相对论返波管中击穿现象粒子模拟强激光与粒子束201729(6): 063001.

[592] Hongguang Wang, Min Peng, W. Luo, Yongdong Li, Chun-liang LiuA Circuit Particle-in-Cell Coupled Simulation of a Magnetically Insulated Transmission Line SystemIEEE Transactions on Plasma Science201745(7) :1762 – 1768.