姓 名:刘凡新
工作部门:理学院 应用物理系
性 别:男
技术职称:教授
最高学位:博士
民 族:汉
籍 贯:江苏 徐州
联系方式:
Email: liufanxin@zjut.edu.cn
电 话:0571-********
主要研究方向:
主要从事表面等离激元光学相关的理论及实验研究,具体开展了以下研究方向:1)基于超薄介质薄膜包覆金属微纳结构的表面增强拉曼研究,主要是利用我们在超薄介质薄膜方面的优势与目前的金属微纳结构的表面等离激元相结合,研究其引发的新的物理性质及在表面增强拉曼中的应用;2)基于超薄介质薄膜包覆金属纳米粒子的新特性研究其在太阳能电池及可见光光催化中的增强机理;3)研究金属微纳结构的非线性光学现象。
简 历:
教 授: 2017.01-至今 浙江工业大学 理学院 应用物理系
副教授: 2011.07-2016.12 浙江工业大学 理学院 应用物理系
访问学者:2014.09-2015.09 美国南加州大学 工学院电子物理系;合作教授:吴蔚 教授
博士后: 2008.06 -2011.07 南京大学固体微结构国家重点实验室;合作教授:王振林 教授
高级工程师: 2004.05 -2007.12 SAE Magnetics Ltd (HK) (TDK) (东莞新科磁电厂, 日本TDK集团)
进 修: 2003.07-2003.09 中科院北京化学所 有机固体实验室 刘云圻 院士
教育经历:2007年获华中科技大学凝聚态物理博士学位;2003年获青岛科技大学材料物理与化学硕士学位;1999年获青岛科技大学学士。
研究(情况)项目:
主要研究特色是利用超薄介质薄膜与金属微纳结构相结合所带来的新物理特性,第一次报道了超薄介质薄膜所引发的表面等离激元电场释放现象,研究了其在拉曼增强等中的应用,并应用于生物医学检测及食品检测领域。基于上述研究,目前主持的国家及省部级项目如下:
1) 国家自然科学基金面上项目(主持),金属Bowtie结构耦合电场强度的调控及其表面增强拉曼散射研究(立项号:11574270,金额:86.8万),2016.01-2019.12.
2) 南京大学固体微结构物理国家重点实验室开放课题(主持),毛细管力诱导的金属微纳耦合结构的光学性能研究(立项号:M30053,金额:3万),2017.05-2019.05.
3) 国家自然科学基金青年项目(主持),超薄类金刚石薄膜包覆金属微纳结构的奇异的表面等离激元特性及引发的表面增强拉曼散射(立项号:11104135,金额:26万),2012.01-2014.12.
4) 浙江省自然科学基金面上项目(主持),超薄ta-C包覆Ag Bowtie结构及表面增强拉曼散射研究(立项号:LY15A040005,金额:8万),2015.01-2017.12.
5) 南京大学固体微结构物理国家重点实验室开放课题(主持),超薄四面体碳膜修饰银Bowtie结构的表面等离激元性能研究(立项号:M27007,金额:6万),2014.05-2016.05.
6) 南京大学固体微结构物理国家重点实验室开放课题(主持),超薄DLC介质薄膜修饰金属微纳结构的奇异的表面等离激元性能研究(立项号:M25003,金额:4万),2012.01-2013.12.
7) 浙江省自然科学基金面上项目(参与,排名第二),超构材料中光频磁场增强及表面增强拉曼散射(立项号:LY14A040004,金额:8.5万),2014.01-2016.12.
发表的论文、专著、教材(*通讯作者):
34. Fanxin Liu, Boxiang Song, Guangxu Su, Oven Liang, Peng Zhan, Han Wang, Wei Wu, Yahong Xie, Zhenlin Wang. Sculpting Extreme Electromagnetic Field Enhancement in Free Space for Molecule Sensing. Small (DOI: 10.1002/smll.201801146) (2018). (IF=9.5)
33. Zhong Huang, Yunyun Dai, Guangxu Su, Zhendong Yan, Peng Zhan, Fanxin Liu, Zhenlin Wang. Dynamically Tunable Electromagnetically Induced Transparency in Graphene and Split-Ring Hybrid Metamaterial. Plasmonics 13, 451-457(2018).
32. Bo Yan, Ke Li, Ping Gu, Zhen Li, Chaojun Tang, Fanxin Liu*, Peng Zhan, Chenghua Sui, Zhenlin Wang. Thermal stability of ultrathin and high dielectric ta‐C films coated with Ag nanostructures for SERS. Journal of Raman Spectroscopy 49, 431 (2018). (IF=2.99)
31. Huan Zhao, Zhipeng Dong, He Tian, Don DiMarzi, Myung-Geun Han, Lihua Zhang, Xiaodong Yan, Fanxin Liu, Lang Shen, Shu-Jen Han, Steve Cronin, Wei Wu, Jesse Tice, Jing Guo, Han Wang. Atomically Thin Femtojoule Memristive Device. Advanced Materials 29, 1703232 (2017). (IF=21.5)
30. Boxiang Song, Yuhan Yao, Roelof E. Groenewald, Yunxiang Wang,He Liu, Yifei Wang,Yuanrui Li, Fanxin Liu, Stephen B. Cronin, Adam M. Schwartzberg, Stefano Cabrini, Stephan Haas, and Wei Wu*,Probing Gap Plasmons Down toSubnanometer Scales Using CollapsibleNanofingers, ACS Nano 11, 5836 (2017). (IF=14.2)
29. Chaojun Tang, Bo Yan, Qiugu Wang, Jing Chen, Zhendong Yan, Fanxin Liu*, NaiboChen,Chenghua Sui, Toroidal Dipolar Excitation inMetamaterials Consisting of Metalnanodisks and a Dielectrc Spacer onMetal Substrate, Scientific Reports (NPG) 7, 582 (2017).
28. Pengwei Wang, Naibo Chen, Chaojun Tang, Jing Chen, Fanxin Liu, SaiqianSheng, Bo Yan, and Chenghua Sui, Engineering the Complex-valued Constitutive Parametersof Metamaterials for Perfect Absorption, Nanoscale Research Letters 12, 276 (2017).
27. Wei Du, Long Liu, Ping Gu, Jingguo Hu, Peng Zhan, Fanxin Liu, Zhenlin Wang. Hotspot-engineered quasi-3D metallic network for surface-enhanced Raman scattering based on colloid monolayer templating, Applied Physics Letters 109, 121108 (2016)
26. Chaojun Tang, Jing Chen, Fanxin Liu* et al. Toroidal dipolar response in metamaterials composed of Metal-Dielectric-Metal sandwich magnetic resonators, IEEE Photonics Journal 8(3) (2016).
25. Pengwei Wang, Chaojun Tang, Zhendong Yan, Qiugu Wang, Fanxin Liu, Jing Chen, Zhijun Xu, Chenghua Sui. Graphene-based Superlens for Subwavelength Optical Imaging by Graphene Plasmon Resonances. Plasmonics 11, 515-522 (2016).
24. Zhendong Yan, Wei Du, Linlin Tu, Ping Gu, Zhong Huang, Peng Zhan, Fanxin Liu, Zhenlin Wang. A facile high-performance SERS substrate based on broadband near-perfect optical absorption. Journal of Raman Spectroscopy 46, 795 (2015).
23. Chaojun Tang, Jing Chen, Mingwei Zhu, Fanxin Liu* et al. Ultrathin amorphous silicon thin-film solar cells by magnetic plasmonic metamaterial absorbers, RSC Advances 5, 2046-2049 (2015)
22. Haiyang Lu, Chaojun Tang, Wei Du, Fanxin Liu, Xue Xing, Peng Zhan, Zhuo Chen, Zhenlin Wang. Optical transmission of planar metallic films coated by two-dimensional colloidal crystals, Optics Express 22, 11698 (2014)
21. Fanxin Liu*, Chaojun Tang, Peng Zhan, Zhuo Chen, Zhenlin Wang*, Released Plasmonic Electric Field of Ultrathin Tetrahedral-Amorphous-Carbon Films Coated Ag Nanoparticles for SERS, Scientific Reports (NPG) 4, 4494 (2014).
20. Fanxin Liu*, Chaojun Tang, Zhenlin Wang*, Chenhua Sui, Hongtao Ma, A New Dielectric of Ta-C Film Coated Ag-Nanoparticles Hybrids for Enhancing TiO2 Photocatalysis. Nanotechnology 25, 125703 (2014) (Highlight As a cover paper).
19. Fanxin Liu*, Hongtao Ma, Chaojun Tang, Si seed layer thickness effect on the structure of ultrathin ta-C, Surface & Coating Technology 235, 117 (2013).
18. Fanxin Liu*, Xuhong Ye, Chaojun Tang, Hongtao Ma, Silver Macro-texture Substrates Fabricated by Plasma Selective Etching for Surface-enhanced Raman Scattering, Journal of Raman Spectroscopy 44, 393(2013).
17. Chaojun Tang, Qiugu Wang, Fanxin Liu, Zhuo Chen*, Zhenlin Wang, Optical forces in twisted split-ring-resonator dimer stereometamaterials. Optics Express 21, 11783 (2013).
16. Ling Chen, Fanxin Liu, Peng Zhan, Jian Pan, Zhenlin Wang*, Ordered Gold Nanobowl s as Substrates for Surface-Enhanced Raman Spectroscopy, Chin. Phys. Lett. 28, 057801 (2011).
15. Xiaozhou Che*, Lianhua Chen, Hongtao Ma, Fanxin Liu, Journal of Vacuum Science and Technology 31, 76(2011).
14. Fanxin Liu*, Zhishen Cao, Chaojun Tang, Ling Chen, Zhenlin Wang*, Ultrathin Diamond-like carbon film coated silver nanoparticles based substrates for surface-enhanced Raman spectroscopy, ACS Nano 4, 2643(2010).
13. Fanxin Liu*, Chaojun Tang, Jian Pan, Zhishen Cao, Zhenlin Wang*, A strategy for maximum fluorescence enhancement based on ta-C coated metal substrates, J. Phys. Chem. C 114, 9871(2010).
12. Nujiang tang*, Jianfeng Wen, Yang Zhang, Fanxin Liu et al, ACS Nano 4, 241 (2010).
11. Fanxin Liu*, Zhenlin Wang, Thickness dependence of the structure of Diamond-like carbon films by Raman spectroscopy, Surface & coating Technology 203, 1829 (2009).
10. Fanxin Liu*, Kailun Yao, Zuli Liu, Substrate bias effect on structure of ta-C films by Raman spectroscopy, Diamond & Related Materials 16, 1746 (2007).
9. Fanxin Liu*, Kailun Yao, Zuli Liu, Substrate tilting effect on structure of ta-C film by Raman spectroscopy, Surface & coating Technology 201, 7235 (2007).
8. Fanxin Liu*, Kailun Yao, Zuli Liu, Raman spectroscopy of a:C:H:N films deposited using ECR-CVD with mixed gas, Applied Surface Science 253, 6957 (2007).
7. Fanxin Liu*, Kailun Yao, Zuli Liu, Different substrate materials effect on structure of ta-C films by Raman spectroscopy for magnetic recording sliders, Journal of Non-Crystalline Solids 353, 2545 (2007).
6. Fanxin Liu, Fanyong Liu, Dynamics of Continuous Discrete and Impulsive Systems-Series B-Applications & Alogrithms 14, 262 (2007).
5. H.Y. Zhang, L.X. Liu, Y.L. Wang, H.T. Ma, Fanxin Liu, Structure and mechanical performance of nitrogen doped diamond-like carbon films, Journal of Materials Science & Technology 24, 491 (2007).
4. H.Y. Zhang, L.X. Liu, H.T. Ma, Fanxin Liu, Investigation of ta-C and ta-C:N roughness prepared by different processes, Journal of Materials Science & Engineering 24, 1 (2006).
3. Fanyong Liu, Fanxin Liu, Neural Information Processing 423, 461 (2006).
2. Fanxin Liu, Zuolin Cui et al, Photocatalytic Degradation Of Formaldehyde And Benzene On Ce-Doping TiO2 Composite Thin Films, Journal of Molecular Catalysis 17, 297 (2003).
1. Fanxin Liu, Zuolin Cui et al, Photocatalytic Degradation of methyl orange on nanometer TiO2 composite thin films, Photographic Science and Photochemistry 21, 119 (2003).
科研成果及专利:
1. 中国授权发明专利:基于类金刚石薄膜修饰金属纳米结构的表面增强拉曼衬底及其制备方法,专利号ZL200910234586.7 (排名第一)
2. 中国发明专利(审查阶段):刘凡新,一种表面增强拉曼衬底的制备方法,2017.9.14,中国,申请号:201710825180.0。
研究生培养等教学情况:
目前有5名研究生在读,其中3名在南京大学物理系进行为期一年的学术交流。
奖励和荣誉:
1.荣获2012年 第一届南京大学 校级优秀博士后称号
2.荣获2013年 浙江工业大学 校级优秀班主任
3.荣获2005年 PAR award from SAE Magnetics Ltd.(TDK)
其它:
担任国际SCI期刊J. Phys. Chem. C, Surface Coating Technology, Applied Surface Science, Materials Research Bulltin, Applied Physics A等审稿人。
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