姓 名:范春珍 学 历:博士 职 称:教授、博士生导师
所学专业:光学
所属部门:光电信息科学研究所
电子邮件:chunzhen@zzu.edu.cn
一、个人简介
2010年获得复旦大学博士学位(硕博连读),博士期间前往美国公派交流一年。主要从事超材料的结构设计及其热学和电磁学性能调控。先后主持国家自然科学基金青年项目,河南省科技攻关项目2项、河南省高校重点科研项目3项等。已在Applied Physics Letters、ES Energy and Environment、Langmuir、Optics Express、The Journal of Physical Chemistry C、Journal of Optics等国内外学术期刊发表相关SCI学术论文80余篇,授权国家发明专利4项。其中以第一作者首次发表了基于坐标变换的理论热学,并预言了热隐身,极力促进了热超构材料的领域的发展[Applied Physics Letters 92,251907 (2008)]。现为国际热力学与热超构材料学术会议组委会成员。
二、研究工作经历
2008.06-2008.08 香港中文大学物理系 研究助理
2008.10-2009.10 美国肯特州立大学液晶研究所 研究助理
2010.11-2013.12郑州大学,物理工程学院,讲师
2014.01-2022.01郑州大学,物理工程学院,副教授
2022.02-至今 郑州大学,物理学院,教授
三、研究方向
1) 新型超材料的构筑及其电磁、热学性能调控;
2) 微结构表面相干热辐射用于辐射制冷的研究;
3) 纳米光子学与表面等离激元光子学等。
欢迎物理、电子科学与技术、测控等相关专业的本科生和研究生加入课题组,有相关问题请随时联系!
四、 部分代表性论文
1) Yuanlin Jia, Huaiyuan Yin, HuaweiYao, Junqiao Wang, Chunzhen Fan*, Highly tunable thermal emitter with vanadium dioxide metamaterials for radiative cooling, Applied Optics (2021)
2) Chunzhen Fan*, Peiwen Ren, Yuanlin Jia, Shuangmei Zhu, Junqiao Wang, Highly tunable plasmon induced transparency with Dirac semimetal metamaterials, Chinese Physics B (2021)
3) Huaiyuan Yin, Huawei Yao, Yuanlin Jia, Junqiao Wang, Chunzhen Fan*, Realization of efficient radiative cooling in thermal emitter with inorganic metamaterials, Journal of Physics D: Applied Physics 54 345501 (2021).
4) Yuanlin Jia, Huaiyuan Yin, HuaweiYao, Junqiao Wang, Chunzhen Fan*, Realization of multi-band perfect absorber in graphene based metal-insulator-metal metamaterials, Results in Physics 25 104301 (2021)
5) Huawei Yao, Xiaoxia Wang, Huaiyuan Yin, Yuanlin Jia, Yong Gao, Junqiao Wang, Chunzhen Fan*, Efficient realization of daytime radiative cooling with hollow zigzag SiO2 metamaterials, Chinese Physics B 30 064214 (2021).
6) Chunzhen Fan*, Yuanlin Jia, Peiwen Ren, Wei Jia, Tunable plasmon induced transparency and multispectral with large group delay in graphene metamaterials, Journal of Physics D: Applied Physics 54 035107 (2021).
7) Peiwen Ren, Yuanlin Jia, Chunzhen Fan*, Investigation on Tunable and Enhanced Optical Properties with Graphene Metamaterials, Journal of Physical Chemistry C 124 21075–21081 (2020).
8) Yuanlin Jia, Peiwen Ren, Chunzhen Fan*, Thermal tunable 1D photonic crystals containing phase change material, Chinese Physics B 29 104210 (2020).
9) Yuanlin Jia, Peiwen Ren, Junqiao Wang, Chunzhen Fan*, Erjun Liang, Thermal modulation of plasmon induced transparency in graphene metamaterials, ES Energy & Environment 7 4-11 (2020).
10) Junqiao Wang, Yanan Wu, Chunzhen Fan, Erjun Liang, Yan Li, Pei Ding, Unmodified hot spot in hybridized nanorod dimer for extended surfaceenhanced Raman scattering, Journal of Physics and Chemistry of Solids 136 109125 (2020).
11) Yanan Wu, Junqiao Wang, Mengke Ren, Wenhan Zhao, Ran Li, Chunzhen Fan, Erjun Liang, Yan Li, Pei Ding, Jinna He, Double-wavelength nanolaser based on strong coupling of localized and propagating surface plasmon, Journal of Physics D: Applied Physics 53 135108 (2020).
12) Chunzhen Fan*, Peiwen Ren, Wei Jia, Yuanlin Jia, Junqiao Wang, Tunable plasmon induced transparency in patterned graphene metamaterial with different carrier mobility, Superlattices and Microstructures 136 106295 (2019).
13) Peiwen Ren, Yuanlin Jia, Wei Jia, Chunzhen Fan*, Plasmon induced transparency in graphene with double asymmetric L strips, Journal of Optics 21 105101 (2019).
14) Wei Jia, Peiwen Ren, Yuanlin Jia, Chunzhen Fan*, Active control and large group delay in graphene based THz metamaterials, Journal of Physical Chemistry C 123 18560−18564 (2019).
15) Chunzhen Fan*, Yuchen Tian, Peiwen Ren, Wei Jia, Realization of THz dual band absorber with periodic cross-shaped graphene metamaterials, Chinese Physics B 28 076105 (2019).
16) Wei Jia, Yuchen Tian, Peiwen Ren, Chunzhen Fan*, Dynamically tunable optical properties in graphene based plasmon-induced transparency metamaterials, Chinese Physics B 28 026102 (2019).
17) Shuangmei Zhu, Chunzhen Fan, Pei Ding, Erjun Liang, Hongwei Hou, Yuanda Wu, Theoretical investigation of a plasmonic substrate with multiresonance for surface enhanced hyper-Raman scattering, Scientific Reports 8 11891 (2018).
18) Shuangmei Zhu, Chunzhen Fan, Junqiao Wang, Erjun Liang, Haoshan Hao, Sensitive surface-enhanced Raman scattering substrates based on anti-pyramidal gold architectures decorated with silver nanoparticles, Spectroscopy Letters 51 1-9 (2018).
19) Haoyi Xin, Chunzhen Fan, Junqiao Wang, Erjun Liang, Shuangmei Zhu, Synthesis of indium–silver bimetallic nanocomposites for surface enhanced Raman scattering, Optical Review 25 678-683 (2018).
20) Yuchen Tian, Wei Jia, Peiwen Ren, Chunzhen Fan*, Tunable plasmon induced transparency based on asymmetric H-shaped graphene metamaterials, Chinese Physics B 27 124205 (2018).
21) Ziwen Ji, Huaping Zang, Chunzhen Fan, Junqiao Wang, Chenglong Zheng, Lai Wei, Chuanke Wang, Leifeng Cao, Fractal spiral zone plates, Journal of the Optical Society of America A 35 726 (2018).
22) Yuchen Tian, Pei Ding, Chunzhen Fan*, Tunable plasmon-induced transparency in plasmonic metamaterial composed of three identical rings, Optical Engineering 56 107106 (2017).
23) Chunzhen Fan*, Shuangmei Zhu, Haoyi Xin, Yuchen Tian, Erjun Liang, Tunable and enhanced SERS activity of magneto-plasmonic Ag-Fe3O4 nanocomposites with one pot synthesize method, Journal of Optics, 19 015401 (2016).
24) Chunzhen Fan*, Shuangmei Zhu, Haoyi Xin, Controllable optical activity of non-spherical Ag and Co SERS substrate with different magnetic field, Chinese Physics B 26 023301 (2017).
25) Junqiao Wang, Jia Zhang, Chunzhen Fan, Kaijun Mu, Erjun Liang, Pei Ding. Electromagnetic field manipulation in planar nanorod antennas metamaterial for slow light application, Optics Communications 383 36-41 (2017).
26) Chunzhen Fan, Enhanced and controllable multilayer SERS substrate with composite layer, Advances in Intelligent systems research, Part 1, 2016.12 Atlantis Press, 51-55 (2016).
27) Chunzhen Fan, Shuangmei Zhu, Enhanced SERS activity induced by the Ag Rod-Fe3O4 nanocomposite with different applied magnetic field, Advances in Intelligent systems research, Part 3, 2016.12 Atlantis Press, 447-450 (2016).
28) Jinna He, Chunzhen Fan, Pei Ding, Shuangmei Zhu, Erjun Liang, Near-field engineering of Fano resonances in a plasmonic assembly for maximizing CARS enhancements, Scientific Reports 6 20777 (2016).
29) Shuangmei Zhu, Chunzhen Fan, Yanchao Mao, Junqiao Wang, Jinna He, Erjun Liang, Mingju Chao, A monolayer of hierarchical silver hemi-mesoparticles with tunable surface topographies for highly sensitive surface-enhanced Raman spectroscopy, The Journal of Chemical Physics 144 074703 (2016).
30) Chunzhen Fan*, Tunable SERS effect of the silver rod and magnetite nanocomposite with different magnetic field and aspect ratios, Journal of Optics 45 307–311 (2015).
五、授权国家发明专利
1) 一种三环结构的等离激元诱导透明光学材料及应用 ZL201710183483.7 国家发明专利 已授权 2019.1.22 第一发明人
2) 一种基于十字形石墨烯材料的太赫兹双波带吸收器及其应用 ZL201711121388.0国家发明专利 已授权 2020.6.12 第一发明人
3) 一种实现电磁诱导透明的非对称双L型石墨烯结构的光学材料及其应用 ZL 201811501579.4 国家发明专利 已授权 2020.12.4 第一发明人
4) 一种可调谐双波长等离子体纳米激光器及其光学材料 ZL 2020 1 0495150.X 国家发明专利 已授权 2021.6.1 第一发明人
