吴立军

个人简介

姓          名:  吴立军

教研室名称:  光电子材料与器件

职          称:  教授（博导）

办 公 地 点:  613

电 子 邮 箱：ljwu@scnu.edu.cn

最后学位及授予单位：中科院物理所博士

2000-2003年：英国圣安德鲁斯大学物理系博士后

2003-2005年：香港科技大学物理系博士后

2005-   至今  ：华南师范大学信息光电子科技学院，教授，博导

研究方向与兴趣：

光学超材料、超构面、红外图像去噪及超分辨、表面等离子体激元器件、飞秒激光与聚合物相互作用、激光直写和全息方法制备复杂微纳结构等。

招生：

光学、光学工程、电子信息（专业型）。优秀学生可以获得去香港科技大学物理系Kam Sing Wong教授研究小组合作交流6-12个月的机会，欢迎报考。

主讲课程：《高等光学》，《固体物理》

科研项目：

1、国家自然科学基金，PVP基聚合物中飞秒激光诱导周期小于80nm光栅的制备及机理研究（项目编号：61675070），2017年1月-2020年12月，主持；

2、国家自然科学基金，金纳米粒子单光子荧光在空间取向探测上的应用研究（项目编号：61378082），2014年1月-2017年12月，主持；

3、六氟化硫(SF6)非制冷型红外气体检漏测温成像仪（项目编号：2012B091100335），广东省教育部产学研结合项目, 2012年1月-2014年1月，高校方项目负责人；

4、高效率半导体胶体白光量子点的研制，广东省高等学校高层次人才项目（广东省教育厅），2011年1月-2013年12月，主持；

5、国家自然科学基金，三维微结构对纳米光源发光性质的调控（项目编号：10774050），2008年1月-2010年12月，主持；

6、 光控光物理与器件的研究（项目编号：06CXTD005），广东省高等学校科技创新团队项目，2007年9月-2010年8月，共同主持。

近年发表的主要论文和论著：

[1]            Fanwei Zhang, Jiepeng Wu, Qiang Li, Hongjin Hu, Lizhen Yang, Tao Li and Lijun Wu*(通信作者) “Plasmon-controlled, ultra-bright, excitation polarization- independent photoluminescence from individual Ag nanoplates”Nanophotonics 2020 DOI: https://doi.org/10.1515/nanoph-2019-0555.

[2]        Zhonghong Shi, Jiufeng Huang, Xi Huang, Yangwei Huang, Lijun Wu*(通信作者)，Qiang Li, “Resonant scattering enhanced interferometric scattering microscopy”Nanoscale 12, 14 (2020)

[3]        Qiang Li, Zhonghong Shi, Lijun Wu*(通信作者)，Hong Wei “Resonant scattering enhanced photothermal microscopy” Nanoscale 12, 15 (2020)

[4]        Zhonghong Shi， Xiaorui Tian，Zhangzeng Luo，Rongchen Huang，Lijun Wu*(通信作者)，Qiang Li, “Photothermal Imaging of Individual Nano-Objects with Large Scattering Cross Sections”, J. Phys. Chem. A 124, 1659 (2020)

[5]        Jiepeng Wu, Fanwei Zhang, Qiang Li, Qianbin Feng, Yu Wu and Lijun Wu* (通信作者）, “Strong Field Enhancement in Individual F-Shaped Dielectric Nanostructures Based on Anapole Mode Resonances”, Opt. Express 28, 570 (2020)

[6]        Jiepeng Wu, Fanwei Zhang, Qiang Li, Junyi Chen, Qianbin Feng, and Lijun Wu* (通信作者) “Infrared five-band polarization insensitive absorber with high absorptivity based on single complex resonator”, Opt. Commun. 456, 124575 (2020)

[7]        Guozhou Li, Hongjin Hu and Lijun Wu* (通信作者）“Tailoring Fano lineshapes using plasmonic nanobars for highly sensitive sensing and directional emission”, Phys. Chem. Chem. Phys. 21, 252 (2019)

[8]        Hong-Jin Hu, Fan-Wei Zhang, Guo-Zhou Li, Junyi Chen, Qiang Li, and Lijun Wu* (通信作者）“Fano resonances with high figure of merit in silver oligomer systems”, Photonics Research 6, 204 (2018)

[9]        Junyi Chen, Fanwei Zhang, Qiang Li, Jiepeng Wu, and Lijun Wu* (通信作者）“A high-efficiency dual-wavelength achromatic metalens based on Pancharatnam-Berry phase manipulation”, Opt. Express 26, 34919 (2018)

[10]        Tao Li, Fanwei Zhang, Qiang Li, Wenye Rao, Pei Xu, Lei Xu,†and Li-Jun Wu*(通讯作者),, “Revealing the Mechanism of Photoluminescence from Single Gold Nanospheres by Defocused Imaging”, ACS Photonics 4, 2003 (2017)

[11]        W. X. Lin, G. Z. Li, Q. Li, H.J. Hu, F. Han, F.W. Zhang and L.-J. Wu^*(通讯作者), “Thermal emission properties of one-dimensional grating with different parameters”,  Chin. Phys. B 26, 057301（2017）

[12]        Guozhou Li, Qiang Li, Lizhen Yang and L.-J. Wu^*(通讯作者), “Optical magnetism and optical activity in nonchiral planar plasmonic metamaterials”, Opt. Lett. 41, 2911 (2016)

[13]        W. Rao, Q. Li, Y. Wang, T. Li, L.-J. Wu^*(通讯作者), “Comparison of Photoluminescence Quantum Yield of Single Gold Nano-Bipyramids and Gold Nanorods” ACS Nano 9，2783 （2015）

[14]        G. Li, Q. Li, L. Xu, L.-J. Wu^*(通讯作者), “Numerical Realization of Fano-Type Resonances in Cascaded Plasmonic Heterodimers for Refractive Index Sensing”, Plasmonics  10, 1401 (2015)

[15]        W. J. Xiong, Y. Xu, Y. J. Xiao, X. X. Lv, L.-J. Wu^*(通讯作者), “Polarization manipulation in single refractive prism based holography lithography”, Photonic. Nanostruct. 13, 74 (2015)

[16]        Y. Wang, Q. Li, W. Rao, L.-J. Wu^*(通讯作者), “Correlation between the physical orientation of gold nanoparticles and their emitting dipoles by combining AFM with fluorescence microscope”, Opt. Commun. 350, 56 (2015)

[17]        Lei Xu, Shun Wang and L.-J. Wu^*(通讯作者), “Refractive Index Sensing Based on Plasmonic Waveguide Side-Coupled with Bilaterally-Located Double Cavities”, IEEE Transactions on Nanotechnology 13, 875 (2014)

[18]        P. Xu, Q. Li, T. Li, W. Rao, Y. Wang, S. Lan and L.-J. Wu^*(通讯作者), “Enhancing the Surface-State Emission in Trap-Rich CdS Nanocrystals by Silver Nanoparticles”, Plasmonics 9, 1039 (2014)

[19]        F. Han, X. Sun, L.-J. Wu^*(通讯作者), Q. Li, “Dual-wavelength orthogonally polarized radiation generated by a tungsten thermal source”, Opt. Express 21, 28570 (2013)（IF=3.587）

[20]        Q. Li, S. Guo, P. Xu, and L.-J. Wu^*(通讯作者), “Controllable surface-state emission from colloidal CdS quantum dots under different growth conditions”, Cryst. Res. Technol. 48, 977 (2013)

[21]        T. Li, Q. Li, Y. Xu, X.-J. Chen, Q.-F. Dai, H.-Y. Liu, S. Lan, S.-L. Tie and L.-J. Wu^*(通讯作者), “Three-dimensional Orientation Sensors by Defocused Imaging of Gold Nanorods through an Ordinary Wide-Field Microscope”, ACS Nano 6, 1268 (2012)

[22]        S. Wang, Y. Xu, S. Lan, L.-J. Wu^*(通讯作者), “Flat-Top Reflection Characteristics in Metal-Dielectric-Metal Plasmonic Waveguide Structure Side Coupled with Cascaded Double Cavities”, Plasmonics 6, 689 (2011)

[23]        Y. Xu, A.E.Miroshnichenko, S. Lan, Q. Guo and L.-J. Wu^*(通讯作者), “Impedance Matching Induce High Transmission and Flat Response Band-Pass Plasmonic Waveguides”, Plasmonics 6, 337 (2011)

[24]        Q. Li, X.-J. Chen, Y. Xu, S. Lan, H.-Y. Liu, Q.-F. Dai and L.-J. Wu^*(通讯作者), “Photoluminescence properties of the CdSe quantum dots accompanied with rotation of the defocused wide-field fluorescence images” ,J. Phys. Chem. C 114, 13427 （2010）

[25]        Y. Xu, S.Wang, S. Lan, X.-S. Lin, Q. Guo and L.-J. Wu^*(通讯作者),“Self-collimating polarization beam splitter based on Photonic crystal Mach-Zehnder interferometer”, J. Opt. Soc. Am. B 27，1359 (2010)

[26]        Z.-J. Zhong, Y. Xu, S. Lan, Q.-F. Dai, and L.-J. Wu^*(通讯作者), “Sharp and asymmetric transmission response in metal-dielectric-metal plasmonic waveguides containing Kerr nonlinear media”, Opt. Express 18, 79 (2010)

[27]        X.-J. Chen, Y. Xu, S. Lan, Q.-F. Dai, X.-S. Lin, Q. Guo and L.-J. Wu^*(通讯作者)，“Rotation of defocused wide-field fluorescence images after blinking in single CdSe/ZnS core-shell quantum dots”,Phys. Rev B. 79，115312（2009).

[28]     Y. Xu, X.-J. Chen, S. Lan, Q.-F. Dai, Q. Guo and L.-J. Wu^*(通讯作者) “Polarization-independent self-collimation based on pill-void photonic crystals with square symmetry”, Opt. Express ,17, 4903 (2009).

[29]     Y. Xu, X.-J. Chen, S. Lan, Q. Guo, W. Hu, and L.-J. Wu^*(通讯作者), “The all-angle self-collimating phenomenon in photonic crystals with rectangular symmetry”, J. Opt. A: Pure Appl. Opt. 10, 085201 (2008).

[30]     X.-J. Chen, Y. Xu, S. Lan, Q. Guo, X.-B. Yang, and L.-J. Wu^*(通讯作者), “Power splitters based on the light-intensity-dependent superprism effect”, Appl. Opt. 47, 4701 (2008).

[31]     S. Jugessur, A. Bakhtazad, L. Wu^*(通讯作者), A Kirk, T. F. Krauss and R. M. De La Rue, “A compact and integrated 2-D Photonic Crystal Super-prism filter-device for wavelength demultiplexing applications”, Opt. Express 14, 1632-1642 (2006).

[32]     L. Wu, W.Y. Y. Tong, Y. Zhong, and K. S. Wong, J. Hua, M. Häußler, J. W. Y. Lam, B. Z. Tang, “Photo-cross-linkable light-emitting polymers for holographic patterning”, Appl. Phys. Lett. 89, 191109 (2006).

[33]     L. Wu, Y. Zhong, K.S. Wong, G.P. Wang, and L. Yuan, “Fabrication of hetero-binary and honeycomb photonic crystals by one-step holographic lithography”, Appl. Phys. Lett.  88, 091115 (2006).

[34]     L. Wu, Y. Zhong, C.T. Chan, K.S. Wong, G.P. Wang, “Fabrication of Large Area Two- and Three-dimensional Polymer Photonic Crystals Using Single Refracting Prism Holographic Lithography”, Appl. Phys. Lett. 86, 241102 (2005).

[35]     L. Wu, M. Mazilu, J-F. Gallet, and T. F. Krauss, “Dual lattice photonic-crystal beam splitter”, Appl. Phys. Lett. 86, 211106 (2005).

[36]     L. Wu, M. Mazilu, J-F. Gallet and T. F. Krauss, “Planar Photonic Crystals Polarization Splitter”, Opt. Lett., 29, 1620 (2004)

[37]     L. Wu, M. Mazilu, J-F. Gallet and T. F. Krauss,“Square Lattice Photonic-crystal Collimator”, Photonics and Nanostructures-Fundamentals and Applications 1, 31 (2003)

[38]     L. Wu, M. Mazilu and T. F. Krauss “Beam Steering in Planar Photonic Crystals: From Superprism To Supercollimator”, Journal of Lightwave Technology, 21, 561 (2003)

[39]  L. Wu, M. Mazilu, T. Karle, and T. F. Krauss “Superprism Phenomena in Planar Photonic Crystals”,IEEE Journal of Quantum Electronics, 38, 915 (2002)

论著：

《Organic and Hybrid Photonic Crystals》“Fabrication of Photonic Crystals Using Holographic Lithography”（P213-239 Springer,2015）