王兆娜 - 北京师范大学

个人简介

教育经历 2002年北京师范大学物理学学士学位 2007年北京师范大学光学博士学位工作经历 2007年-2011年北京师范大学讲师 2011年-2016年北京师范大学副教授 2013.9-2015.2 佐治亚理工学院访问学者 2016年-至今北京师范大学教授科研项目北京市科委项目压电效应增强的深紫外光电集成芯片研究（Z221100002722019）（2022.12-2024.12）国家自然科学基金重大研究计划培育项目动量空间的随机激光结构光场构建及其在超分辨成像中的应用（2022.1-2024.12）国家自然科学基金面上项目热释电光电子学效应增强的氧化锌基紫外光电探测器（2020.1-2023.12）国家自然科学基金面上项目压电光电子学效应调控的电泵浦随机激光器和纳米激光器（2016.1-2019.12）国家自然科学基金青年基金无序介质中实现光放大的物理机制研究（2012.1-2014.12）教育部博士点基金新教师基金弱散射无序介质中非相干反馈向相干反馈转换的条件研究（2011.1-2013.12）学术兼职物理学会光物理专业委员会委员中国光学学会全息与光信息处理专业委员会委员奖励荣誉北京师范大学第十二届青年教师基本功比赛二等奖（2010）北京师范大学优秀辅导员（2010）北京高校青年英才计划（2013）北京师范大学第四届多媒体教学软件比赛演示课件组二等奖（2014）北京师范大学第十三届励耘优秀青年教师奖一等奖（2016）北京高校优秀本科毕业设计优秀指导教师（2019, 2022）

研究领域

主要围绕着界面物理学效应与微纳光电器件开展研究工作.主要的研究方向包括： 1. 非常规激光器的设计及应用研究：主要关注高性能的随机激光光场的实现和调控研究，以探索新型随机激光光场与物质的相互作用及应用。 2 极化场诱导的界面物理效应对光电过程的调控作用及其器件设计：主要关注压电光电子学效应和热释电光电子学效应对光电转换过程的调控作用，并用来设计新型的光电探测器等。 3 光学超构材料的设计、实现及其在SERS、光场调控中的应用研究。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Yaoxing Bian, Hanyi Xue, and Zhaona Wang*，“Programmable random lasing pluses based onwaveguide-assisted random scattering feedback”， Laser& Photonics Reviews 15(4)：2000506(2021). Mengnan Hu, Yaoxing Bian, Huihui Shen and Zhaona Wang*, "A humidity-tailored film random laser", Organic Electronics 86: 105923(2020). Xiaoyu Shi, Hongbiao Cui, Dahe Liu, Jing Zhou and Zhaona Wang*, "Chromaticity-tunable white random laser based on microfluidic channel", Opt. Express 28(9): 13576-13585 (2020). Yongle Zhang, Mengnan Hu, and Zhaona Wang*, "Enhanced performances of p-Si/n-ZnO self-powered photodetector by interface state modification and pyro-phototronic effect", Nano Energy 71:104630 (2020). Yaoxing Bian, Xiaoyu Shi, Mengnan Hu and Zhaona Wang*,"A color-switchable ring-shaped random laser in momentum space", Nanoscale 12, 3166-3173 (2020). Dan Wu#, Mengnan Hu#, Yongyi Zhang, Jing Zhou*, and Zhaona Wang,* " Long-range ordered silver nanoflower array structure for surface enhanced Raman scattering detecting", Appl. Surf. Sci. 505: 144520 (2020). Xiaoyu Shi, Qing Chang,Yaoxing Bian, Hongbiao Cui and Zhaona Wang*, "Line Width-Tunable Random Laser Based on Manipulating Plasmonic Scattering", ACS Photon. 6(9): 2245-2251(2019). Junhua Tong, Zhixing Xu, Yaoxing Bian, Yutao Niu, Yongyi Zhang*,and Zhaona Wang*, "Flexible and smart fibers decorated with Ag nanoflowers for highly active SERS detection", J. Raman Spectr. 50(10):1468-1476 (2019). (Cover) Zhixing Xu, Yongle Zhang and Zhaona Wang*, "ZnO based photodetector: from photon detector to pyro-phototronic effect enhanced detector", J. Phys.s D: Appl. Phys. 52:223001 (2019) (invited review) Zhida Liu, Jiaqi Guo, Boyang Tian, Yaoxing Bian, Ruo-Yang Zhang, and Zhaona Wang*, "Omnidirectional polarization beam splitter for white light", Opt. Express 27(5): 7673-7684 (2019). Ying Wang#, Laipan Zhu#, Yunjie Feng, Zhaona Wang*,and Zhong Lin Wang*, "Comprehensive Pyro-phototronic effect enhanced ultraviolet detector with ZnO/Ag Schottky junction", Adv. Funct. Mater. 29(5): 1807111 (2019). Fanglong Yuan, Zifan Xi, Xiaoyu Shi, Yunchao Li, Xiaohong Li, Zhaona Wang, Louzhen Fan,* and Shihe Yang*, "Ultrastable and Low-Threshold Random Lasing from Narrow Bandwidth Emission Triangular Carbon Quantum Dots", Adv. Opt. Mater. 7(2): 1801202(2019) 史晓玉, 王兆娜, 翟天瑞, 张新平, 基于能量转移的多色随机激光器[J], 物理学进展, 2019,39(03):81-94. 刘志达, 郭佳琦, 田博扬, 王兆娜*, 可实现宽角度全透明光学器件的设计方法, 大学物理, 2019, 38(1): 62-66. Yunjie Feng#, Yongle Zhang#, Ying Wang and Zhaona Wang*, "Frequency response characteristics of pyroelectric effect in pn junction UV detectors", Nano energy 54:429-436 (2018). Yaoxing Bian#, Tao Jiang#, Tianxiao Xiao, Wenping Gong, Xia Cao, Zhaona Wang* and Zhong Lin Wang*, "Triboelectric nanogenerator tree for harvesting wind energy and illuminating in subway tunnel", Adv. Mater. Tech., 3(3):1700317(2018). 黄美珍, 张湉湉, 谢红, 蒋涛, 王兆娜*, 非平行接触分离式摩擦纳米发电机的理论研究, 大学物理, 2018, 37(11):58-63. X. Liu#, D. Wu#, Q. Chang, J. Zhou*, Y. Zhang, and Z. Wang*, "Grooved Nanoplate Assembly for Rapidly Surface Enhanced Raman Scattering Detecting", Nanoscale 9:15390– 15396(2017). DOI: 10.1039/C7NR05228F Xiaoyu Shi#, Yu-Ming Liao#, Hsia-Yu Lin, Po-Wei Tsao, Meng-Jer Wu, Shih-Yao Lin, Hsiu-Hao Hu, Zhaona Wang, Tai-Yuan Lin, Ying-Chih Lai, and Yang-Fang Chen*, "Dissolvable and Recyclable Random Lasers", ACS Nano 11(8),7600–7607(2017). DOI: 10.1021/acsnano.7b00201 X. Shi, Q. Chang, J. Tong, Y. Feng, Z. Wang*,and D. Liu*, "Temporal profiles for measuring threshold of random lasers pumped by ns pulses", Sci. Rep. 7: 5325 (2017). X. Shi, J. Tong, D. Liu, and Z. Wang*, "Resonance energy transfer process in nanogap-based dual-color random lasing", Appl. Phys. Lett. 110(27):171110 (2017). DOI: 10.1063/1.4982161 Q. Chang, X. Shi,X. Liu, J. Tong, D. Liu, and Z. Wang*, "Broadband plasmonic silver nanoflowers for high performance random lasing covering visible region", Nanophotonics 6 (5):1151-1160 (2017). W. Peng#, R. Yu#, X. Wang, Z. Wang, H. Zou, Y. He, Z. L. Wang, "Temperature dependence of pyro-phototronic effect on self-powered ZnO/perovskite heterostructured photodetectors", Nano Res. 9(12), 3695-3704 (2016). L. Cheng#, Q. Chang#, Y. Chang, N. Zhang, C. Tao, Z. Wang* and X. Fan*, "Hierarchical forest-like photoelectrode with ZnO nanoleaves on a metal dendrites array", J. Mater. Chem. A 4, 9816-9821(2016). Z. Wang#, R. Yu#, X. Wang, W. Wu, Z. L. Wang*, "Ultrafast response p-Si/n-ZnO heterojunction ultraviolet detector based on pyro-phototronic effect", Adv. Mater. 28(32):6880-6886 (2016). DOI: 10.1002/adma.201600884. Z. Wang, R. Yu, C. Pan, Z. Li, J. Yang, F. Yi, Z. L. Wang, "Light-induced pyroelectric effect as an effective approach for ultrafast UV nanosensing", Nature Communications 6:8401(2015). Z. Wang*,X. Shi, R. Yu, S. Wei, Q. Chang, Y. Wang, D. Liu, Z. Wang, "Single-excitation dual-color coherent lasing by tuning resonance energy transfer process in porous structured nanowies", Nanoscale Nanoscale7:15091-15098 (2015). F. Yi, L. Lin, S. Niu, P. K. Yang, Z. Wang, J. Chen, Y. Zhou, Y. Zi, J. Wang, Q. Liao, Y. Zhang and Z. L. Wang, "Stretchable-Rubber-Based Triboelectric Nanogenerator and Its Application as Self-Powered Body Motion Sensors", Adv. Functional Mater. 25(24):3688-3696(2015). Z. Wang, R. Yu, C. Pan, Y. Liu, Y. Ding, and Z. Wang," Piezo-phototronic dual-mode photosensing hybridized optical fiber and nanowires", Adv. Mater. 27(9): 1553-1560(2015). J. Yang, J. Chen, Y. Su, Q. Jing, Z. Li, F. Yi, X. Wen, Z. Wang, Z. Wang, "Eardrum-inspired active sensors for self-powered cardiovascular system characterization and throat-attached anti-interference voice recognition", Adv. Mater. 27(8):1316-1326(2015). R. Yu, W. Wu, C. Pan, Z. Wang, Y. Ding, Z. Wang, "Piezo-phototronic Boolean Logic and Computation Using Photon and Strain Dual-Gated Nanowire Transistors", Adv. Mater. 27(5):940-947(2015). 翟天瑞, 李松涛, 王兆娜, 石锦卫, 刘大禾, 张新平, 基于等离激元反馈的薄膜随机激光器, 北京工业大学学报 41(12):1783-1788(2015). Z. Wang, R. Yu, X. Wen, Y. Liu, C. Pan, W. Wu, Zhong Lin Wang*, "Optimizing Performance of Silicon-Based pn Junction Photodetector by Piezo-Phototronic Effect", ACS Nano 8(12)：12866–12873 (2014) DOI: 10.1021/nn506427p X. Liu, L. Zhang, J. Zhou,* J. Shi, Z. Wang, and D. Liu, "Carpet anti-cloak based on transformation optics", Chinese Opt. Lett. 12(12): 121601 (2014). Z. Wang*,Y. Sun, X. Shi, Y. Wang, D. Liu, J. Zhou, and J. Shi, "Two-threshold silver nanowire-based random laser with different dye concentrations", Laser Phys. Lett.11(9):095002 (2014). C. Jun, Y. Zhang, C. Men, Y. Sun, Z. Wang, X. Zhang, and Q. Li, "Programmable writing of grapheme oxide/reduced grapheme oxide fibers for sensible networks with in situ welded junctions", ACS Nano 8(5): 4325-4333 (2014). Y. Wang, X. Shi, Y. Sun, R. Zheng, S. Wei, J. Shi, Z. Wang, D. Liu, "Cascade pumped random lasers with coherent emission formed by Ag-Au porous nanowires", Optics Letters 39(1):5-8(2014). X. Shi(研究生), Y. Wang, Z. Wang*, S. Wei, Y. Sun, D. Liu, J. Zhou, J. Shi, Y. Zhang, "Random lasing with a high quality factor over the whole visible range based on cascade energy transfer", Adv. Opt. Mater. 2:88-93(2014). Zhaona Wang, Yanyan Sun, Lu Han, Dahe Liu, "General laws of reflection and refraction for subwavelength phase grating" arXiv:1312.3855. X. Liu, X. Li, J. Zhou,* Z. Wang, J. Shi,and D. Liu, "Localization of Electromagnetic Wave with Continuous Eigenmodes in Free Space Cavities of Cylindrical or Arbitrary Shapes", Opt. Express 21(25):30746-30754(2013) | DOI:10.1364/OE.21.030746. X. Shi(研究生), Y. Wang, Z. Wang*, Y. Sun, D. Liu, Y. Zhang, Q. Li, and J. Shi, "High performance plasmonic random laser based on nanogaps in bimetallic porous nanowires", Appl. Phys. Lett. 103: 023504 (2013). S. Chen, J. Shi, X. Kong, Z. Wang, D. Liu, "Cavity coupling in a random laser formed by ZnO nanoparticles with gain materials." Laser Phys. Lett. 10(5): 055006(2013). Y. Sun(研究生), Z. Wang*, X. Shi, Y. Wang, X. Zhao, S. Chen, J. Shi, J. Zhou and D. Liu, "Coherent plasmonic random laser pumped by ns pulses in non-resonance region with silver nanowires", J. Opt. Soc. Am. B 30:2523–2528 (2013). 孙彦彦(研究生), 韩璐(本科生), 史晓玉, 王兆娜*, 刘大禾, 用于相位突变界面的广义的反射定律和折射定律, 物理学报 62:104201(2013). Y. Zhou, T. Zhai, R. Dai, Z. Wang, D. Liu. "A 2-dimensional gradual period photonic heterostructure possessing omnidirectional band gap in visible range made by holography", Opt. Commun. 285: 1248-1252 (2012). Z. Wang, D. Liu, R. Dai, "Defect mode of one-dimensional holographic photonic crystals modulated by the intensity ratio of two constructive beams", Appl. Phys. B 107(2):361-367 (2012). S. Chen, Y. Zhou, T. Zhai, Z. Wang, and D.H. Liu. "Different emission properties of a band edge laser pumped by picosecond and nanosecond pulses", Laser Phys. Lett. 9(8): 570-574 (2012). R. Dai, S. Chen, Z. Ren, Z. Wang, and D. Liu. "Defect modes in silver-doped photonic crystals made by holography using dichromated gelatin", Appl. Phys. B 109(1): 15-18 (2012). Z. Wang*, Shujing Chen, Jing Zhou, Dahe Liu, "Investigations on band-edge oscillations of diffraction spectrum of volume hologram by air-doping model", Appl. Opt. 50(14),2049-2054 (2011). 刘大禾;石锦卫;陈淑静;翟天瑞;孔祥昱;王兆娜, "极弱散射结构中的随机激光器", 光学学报 31, 0900127(2011). J. Shi, Z. Wang, D. Liu, W. Gong, Y. Su, "Electromagnetic detection of a perfect cloak based on the material nonlinear response", Appl. Phys. B 105(2): 225-229 (2011). S. Chen, J. Shi , T. Zhai , Z. Wang, D. Liu, X. Chen, "Wavelength Variation of a Random Laser with Concentration of a Gain Material", Chin. Phys. Lett. 28(10 ): 104204 (2011). T. Zhai, Y. Zhou, S. Chen, Z. Wang, J. Shi, D. Liu, and X. Zhang, "Pulse-duration-dependent and temperature-tunable random lasing in a weakly scattering structure formed by speckles", Phys. Rev. A 82,023824(2010). T. Zhai, Y. Zhou, J. Shi, Z. Wang, D. Liu, and J. Zho,u "Electromagnetic localization based on transformation optics" , Opt. Express 18( 11):11891-11897 (2010). T. Zhai, Z. Ren, R. Zhao, Z. Wang, L. Wang, J. Zhou, and D. Liu, "Doping defect in two-dimensional holographic photonic crystals using a continuous-wave visible laser", Chin. Phys. Lett. 26, 054201 (2009). R. Zhao, T. Zhai, Z. Wang, and D. Liu, "Guided Resonances in Periodic Dielectric Waveguides", Journal of Lightwave Technology 27(20): 4544-4547. T. Zhai, D. Liu, Z. Wang, R. Zhao, X. Ren, "Analytical Solution of Band Gaps in 2-D Photonic Crystals Made by Multi-Beam Interference", IEEE Journal of Quantum Electronics 45(10):1297-1301 (2009). Z. Wang,D. Liu, "Narrow Band Longitude Mode Selector of Laser Based on Conjugated Photonic Crystals", Chin. Phys. Lett. 26(10): 104204 (2009). T. Zhai, X. Ren, Z. Wang, J. Zhou, and D. Liu, "Improvements of dielectric columniation triangular lattice for obtaining omnidirectional band gap in visible range", IEEE Photon. Tech. Lett. 21, 1849-1851 (2009). Z.Ren, T.Zhai, Z. Wang, J. Zhou, D. Liu, "Complete Band Gaps in the Visible Range Achieved by a Low-Refractive-Index Material", Adv. Mat. 20 (12),2337-2340 (2008). T Zhai, Z Ren, Z Wang, J Zhou, D Liu, "Achieving Complete Bandgaps by Self-Similar Spherical Structure Using Low Refractive Index Materials", Photon. Tech.Lett., IEEE 20(12):1066-1068 (2008). Z. Wang*, T. Zhai, R. Zhao and D. Liu, "The influence of asymmetric expansion properties and random fluctuation on the bandwidth of a hologram", J. Opt. A: Pure Appl. Opt. 10, 085205 (2008). R. Zhao, T. Zhai, Z. Wang, Y. Wang, D. Liu, "Simultaneous excitation of cavity resonance and surface plasmon resonance in Ag/Al2O3/Ag layer structure", Applied Physics B 92,585-588 (2008). T. Zhai, Z. Wang, R. Zhao, J. Zhou, D. Liu, and X. Zhang, "A Dnv point group structure possessing complete band gap based on gradual heterostructure and self-simulating sphere", Appl. Phys. Lett. 93, 201902 (2008). R. Zhao, T. Zhai, Z. Wang, Y. Wang, D. Liu, "High transmission with narrow bandwidth of metallic defect mode in 1-D dielectric photonic crystals", Appl. Phys. B 93,853-857 (2008). Z. Wang, and D. Liu, "A few points on omnidirectional band gaps in one-dimensional photonic crystals", Appl. Phys. B 86(3):473-476 (2007). Z. Ren, Z. Wang, T. Zhai, H. Gao, D. Liu and X. Zhang, "Complex diamond lattice with wide band gaps in the visible range prepared by holography using a material with a low index of refraction", Phys. Rev. B 76, 035120(2007). Z. Wang, T. Zhai, J. Lin, and D. Liu, "Effect of surface truncation on mode density in photonic crystals", J. Opt. Soc. Am. B 24(9), 2416-2420 (2007). Z. Wang, D. Liu, and Jing Zhou, "Investigation of a peculiar bifurcation phenomenon in diffraction spectra of volume holograms", Opt. Lett. 31(22):3270-3272 (2006). Z. Wang, and D. Liu, "Special kind of photonic crystals with omnidirectional bandgaps", J. Opt. Soc. Am. B .23(11):2601-2604 (2006). Z. Wang, and D. Liu, "Effect of refractive index of environment medium on electromagnetic mode density in photonic band gaps", Appl. Phys. B 82, 549-553 (2006). Z. Ye, J.Zheng, Z. Wang, "Characteristics of band structures in 1D Photonic crystals containing alternate left-right handed materials", Solid State Communications 136, 495-498 (2005). L. Cui, F. Wang, J. Wang, Z. Wang, D. Liu, "The rule for broadening of band-gap in biperiodic photonic crystals", Phys. Lett. A 324, 489-493 (2004).