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正高级职称

张楠

性别:

职称:预聘副教授/特别研究员

学历:博士研究生

所在学科:光学工程

研究方向:微纳加工与制造、光生物与化学传感、表面增强拉曼光谱、柔性光电子、纳米热传输能源转化

电子邮件:nanzhang@bit.edu.cn

教师介绍

    个人简介

    张楠,男,1989年6月出生于河北,博士,北京理工大学光电学院特别研究员,博士生导师。长期致力于新型超表面光子微纳结构器件的物理机制、制造工艺及功能应用研究。相关成果以第一(含并列)作者/通讯作者发表于Advanced Optical Materials、Small Methods、Advanced Materials Interfaces、Scientific Reports、Applied Physics Letters、IEEE Journal of Selected Topics in Quantum Electronics等国际顶级和重要期刊8篇,以合作作者在Nature Sustainability、Advanced Materials、Advanced Functional Materials、Nano Energy、Advanced Sciences、Nanoscale等其他国际著名期刊上发表论文19篇。

    张楠老师计划每年招收1-2名博士生、2-3名硕士生。张楠老师充分尊重学生个性发展和研究兴趣,因材施教,建立平等尊重、相互成就的师生关系。如果你不想拘泥于学科的限制,如果你充满想象力,如果你喜欢动手操作,如果你对新鲜事物充满好奇,如果你有家国情怀,如果你拥有梦想,如果你拥有独立性和批判性思考,那就联系我,让我们一起快乐地探索科学问题、开展技术创新并享受将科技产业化的乐趣吧!

    同时欢迎国(境)外学生申请,具体信息详见学校研究生院网站相关说明(https://grd.bit.edu.cn/zsgz/gatzsgz/index.htm)。

    特别欢迎并支持本科生基于兴趣提前开展科研活动,并积极参与各类科技创新活动。

    另招聘以下方向博士后(专业不限,化学、物理、材料、生物、电子、信息或其他工程皆可),待遇从优,欢迎广大青年才俊加入。

    (具体要求详见https://renshichu.bit.edu.cn/gbzpxx/6a89e3bc5d6a4e18b1d7f9fbc2806036.htm)

    (1)柔性光电子

    (2)光子芯片

    (3)微纳加工与制造

    (4)光生物与化学传感

    (5)二维光子器件

    (6)表面增强拉曼光谱

    (7)表面等离激元增强光催化

    (8)纳米热传输能源转化

    以上所有信息,请将个人简历或个人说明发邮至“nanzhang@bit.edu.cn”,主题注明“申请人姓名+应聘内容(本科生/研究生/博士生/博士后)”。诚邀各位青年才俊与我们共创辉煌!


    教育经历

    2012-08至2019-02,美国,纽约州立大学(布法罗分校),电子工程,工程和应用科学学院,工学博士

    2010-09至2012-06,中国,北京理工大学,工商管理(双学位),经济与管理学院,管理学学士

    2008-09至2012-06,中国,北京理工大学,电子科学与技术(光电子方向),光电学院,工学学士


    工作经历

    2021-10至现在,中国,北京理工大学,光电学院,特别研究员

    2019-02至2021-08,美国,纽约州立大学(布法罗分校),电子工程,工程和应用科学学院,博士后


    研究领域

    1. 微纳加工与制造

    2. 光生物与化学传感

    3. 表面增强拉曼光谱

    4. 纳米热传输能源转化

    5. 柔性光电子

    6. 二维光子器件


    学术兼职

    1. 美国光学学会(原OSA,现Optica)光学薄膜组执行委员会理事

    2. 兼任Scientific Reports、IEEE Photonics、Nanophotonics、Optics Letters、Journal of Applied Physics、Physica Status Solidi B: Basic Solid State Physics、Journal of Photonics for Energy、Journal of Optics、Chinese Optics Letters、Chinese Physics B、Optical and Quantum Electronics等11个SCI 期刊特邀审稿人。


    代表性学术成果

    1. Nan Zhang; Haifeng Hu; Matthew Singer; Kuang-hui Li; Lyu Zhou; Boon S. Ooi; Qiaoqiang Gan*; Large scale sub-1-nm random gaps approaching the quantum upper limit for quantitative chemical sensing, Advanced Optical Materials, 2020, 8(24): 2001634.

    2. Jun Gao#; Nan Zhang#; Dengxin Ji; Haomin Song; Youhai Liu; Lyu Zhou; Zhi Sun; Josep M. Jornet; Alexis C. Thompson; R. Lorraine Collins; Yun Song; Suhua Jiang; Qiaoqiang Gan*; Super absorbing metasurfaces with hybrid Ag-Au nanostructures for surface-enhanced Raman spectroscopy sensing of drugs and chemicals, Small Methods, 2018, 2(7): 1800045.  

    3. Xie Zeng#; Yunchen Yang#; Nan Zhang#; Dengxin Ji; Xiaodong Gu; Josep Miquel Jornet; Yun Wu; Qiaoqiang Gan; Plasmonic Interferometer Array Biochip as a New Mobile Medical Device for Cancer Detection, IEEE Journal of Selected Topics in Quantum Electronics, 2018, 1(25): 7201707.

    4. Haomin Song#; Nan Zhang#; Jiyuan Duan; Zhejun Liu; Jun Gao; Matthew H. Singer; Dengxin Ji; Alec R. Cheney; Xie Zeng; Borui Chen; Suhua Jiang; Qiaoqiang Gan*; Dispersion Topological Darkness at Multiple Wavelengths and Polarization States, Advanced Optical Materials, 2017, 12(5): 1700166.

    5. Nan Zhang; Ziheng Ji; Alec R. Cheney; Haomin Song; Dengxin Ji; Xie Zeng; Borui Chen; Tianmu Zhang; Alexander N. Cartwright; Kebin Shi; Qiaoqiang Gan*; Ultra-broadband enhancement of nonlinear optical processes from randomly patterned super absorbing metasurfaces, Scientific Reports, 2017, 7: 4346.

    6. Nan Zhang; Ziye Dong; Dengxin Ji; Haomin Song; Xie Zeng; Zhejun Liu; Suhua Jiang; Yun Xu; Ayrton Bernussi; Wei Li; Qiaoqiang Gan*; Reversibly tunable coupled and decoupled super absorbing structures, Applied Physics Letters, 2016, 108: 091105.

    7. Nan Zhang; Kai Liu; Zhejun Liu; Haomin Song; Xie Zeng; Dengxin Ji; Alec Cheney; Suhua Jiang; Qiaoqiang Gan*; Ultra-broadband metasurface for efficient light trapping and localization: a universal surface-enhanced Raman spectroscopy substrate for “all” excitation wavelengths, Advanced Materials Interfaces, 2015, 2(10): 1500142.

    8. Nan Zhang; Kai Liu; Haomin Song; Zhejun Liu; Dengxin Ji; Xie Zeng; Suhua Jiang; Qiaoqiang Gan*; Refractive index engineering of metaldielectric nanocomposite thin films for optical super absorber, Applied Physics Letters, 2014, 104: 203112.   

    9. Lyu Zhou; Haomin Song; Nan Zhang; Jacob Rada; Matthew Singer; Huafan Zhang; Boon S. Ooi; Zongfu Yu; Qiaoqiang Gan*; Hybrid concentrated radiative cooling and solar heating in a single system, Cell Reports Physical Science, 2021, 2(2): 100338.

    10. Ziye Dong; Nan Zhang; Yinggui Wang; Jiangyu Wu; Qiaoqiang Gan*; Wei Li*; Photo-patternable nanolayered polymeric films with fast tunable color responses triggered by humidity, Advanced Functional Materials, 2019, 29(43): 1904453.

    11. Lyu Zhou; Haomin Song; Jianwei Liang; Matthew Singer; Ming Zhou; Edgars Stegenburgs; Nan Zhang; Chen Xu; Tien Ng; Zongfu Yu; Boon Ooi; Qiaoqiang Gan*; A polydimethylsiloxane coated metal structure for all-day radiative cooling, Nature Sustainability, 2019, 2: 718-724.

    12. Yun Xu; Dengxin Ji; Haomin Song; Nan Zhang; Yaowu Hu; Thomas D. Anthopoulos; Enzo M. Di Fabrizio; Shumin Xiao; Qiaoqiang Gan*; Light-Matter Interaction within Extreme Dimensions: From Nanomanufacturing to Applications, Advanced Optical Materials, 2018, 6(18): 1800444.

    13. Huamin Chen; Lin Bai; Tong Li; Chen Zhao; Jiushuang Zhang; Nan Zhang; Guofeng Song; Qiaoqiang Gan*; Yun Xu; Wearable and robust triboelectric nanogenerator based on crumpled gold films, Nano Energy, 2018, 46: 73-80.   

    14. Dengxin Ji; Alec Cheney; Nan Zhang; Haomin Song; Jun Gao; Xie Zeng; Haifeng Hu; Suhua Jiang; Zongfu Yu; Qiaoqiang Gan*; Efficient Mid-Infrared Light Confinement within Sub-5-nm Gaps for Extreme Field Enhancement, Advanced Optical Materials, 2017, 5(17): 1700223.   

    15. Huamin Chen; Yun Xu; Lin Bai; Yu Jiang; Jiushuang Zhang; Chen Zhao; Tong Li; Hailong Yu; Guofeng Song; Nan Zhang; Qiaoqiang Gan*; Crumpled Graphene Triboelectric Nanogenerators: Smaller Devices with Higher Output Performance, Advanced Materials Technologies, 2017, 2(6): 1700044.   

    16. Borui Chen; Dengxin Ji; Alec Cheney; Nan Zhang; Haomin Song; Xie Zeng; Tim Thomay; Qiaoqiang Gan*; Alexander Cartwright; Flat metallic surface gratings with sub-10 nm gaps controlled by atomic-layer deposition, Nanotechnology, 2016, 27(37): 374003.

    17. Shaohua Pi; Xie Zeng; Nan Zhang; Dengxin Ji; Borui Chen; Haomin Song; Alec Cheney; Yun Xu; Suhua Jiang; Dalin Sun; Yun Song; Qiaoqiang Gan*; Dielectric-Grating-Coupled Surface Plasmon Resonance From the Back Side of the Metal Film for Ultrasensitive Sensing, IEEE Photonics Journal, 2016, 8(1): 4800207.   

    18. Kai Liu; Suhua Jiang; Dengxin Ji; Xie Zeng; Nan Zhang; Haomin Song; Yun Xu; Qiaoqiang Gan*; Super Absorbing Ultraviolet Metasurface, IEEE Photonics Technology Letters, 2015, 27(14): 1539-1542.

    19. Kai Liu; Xie Zeng; Suhua Jiang; Dengxin Ji; Haomin Song; Nan Zhang; Qiaoqiang Gan*; A large-scale lithography-free metasurface with spectrally tunable super absorption, Nanoscale, 2014, 6: 5599-5605.

    20. Haomin Song; Luqing Guo; Zhejun Liu; Kai Liu; Xie Zeng; Dengxin Ji; Nan Zhang; Haifeng Hu; Suhua Jiang; Qiaoqiang Gan*; Nanocavity enhancement for ultra-thin film optical absorption, Advanced Materials, 2014, 26(17): 2737-2743.


    更新时间:2021年11月


版权所有:北京理工大学光电学院