1. 以主要完成人获2018年度江苏省科学技术一等奖;成果名称:金属微纳结构材料的精确制备、光学新效应及应用基础。
2.、专利
(1)中国授权发明专利:一种基于悬空Au纳米手指闭合阵列结构的表面增强拉曼衬底及其制备方法,专利号:ZL201910666854.6,刘凡新、王振林。
(2)中国授权发明专利:一种表面增强拉曼衬底的制备方法,专利号ZL201710825180.0,刘凡新。
(3)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,刘凡新,王振林。
(4)中国授权发明专利:一种表面增强拉曼大面积金属纳米结构衬底及其制备方法,专利号:ZL200910234587.1,刘凡新,王振林。
(5)中国发明专利:一种基于超薄四面体碳膜修饰Al纳米结构的表面增强拉曼衬底及其制备方法,专利号:201910732465.9,刘凡新。
(6)中国发明专利:基于表面增强拉曼散射技术的脑钠肽检测装置和检测方法,专利号:202111191164.3,刘凡新。
(7)中国发明专利:一种前列腺特异性抗原的检测装置和检测方法,专利号:202111191752.7,刘凡新。
(8)中国发明专利:一种基于表面增强拉曼散射技术的汞离子定量检测方法,专利号:202111191165.8,刘凡新。
(9)中国发明专利:一种实现非辐射局域场的金属纳米结构及其制备方法,专利号:202111487553.0,刘凡新。
3、论文著作(近年代表性论文)
1.)Guangxu Su, Anyuan Gao, Bo Peng, Junzheng Hu, Yi Zhang*, Fanxin Liu*, Hao Zhang*, Peng Zhan* and Wei Wu. Observation of in-plane exciton–polaritons in monolayer WSe2 driven by plasmonic nanofingers. Nanophotonics (2022).
2.)Yunxia Sui, Pan Hu, Dalong Pan, Zhanshuo Jiang, Qianliang Song, Guangxu Su*, Wei Wu and Fanxin Liu*. Long-range interference of localized electromagnetic field enhancement in plasmonic nanofinger lattices. Frontiers in Physics (2022).
3.)Guangxu Su, Pan Hu, Junzheng Hu, Xinluo Wang, Guoliang Wu, Yunpeng Shang, Peng Zhan, Fanxin Liu* and Wei Wu*. Collapsed Nanofingers by DNA-Functionalization as SERS Platform for Mercury Ions Sensing. Journal of Raman Spectroscopy (2022).
4.)Zerui Liu, Deming Meng, Guangxu Su, Pan Hu, Boxiang Song, Yunxiang Wang, Junhan Wei, Tianyi Yuan, Hao Yang, Buyun Chen, Tse-Hsien Ou, Sushmit Hossain, Matthew Miller, Fanxin Liu*, and Wei Wu*. Ultrafast Early Warning of Heart Attack through Plasmon-Enhanced Raman using Collapsible Nanofingers and Machine Learning. Small (2022)
5. ) Jie Wang, Zhenqiu Wu, Junhan Wei, Junzheng Hu, Huikang Yu, Guangxu Su, Lumang Hu, Xiaodong Yan, Peng Zhan, and Fanxin Liu*. Improving Aluminum Ultraviolet Plasmonic Activity through a 1 nm ta‐C Film. ACS Applied Materials & Interfaces 2021, 7672. (封面文章).
6. ) Jiangbin Wu, Hung-Yu Chen, Ning Yang, Jun Cao, Xiaodong Yan, Fanxin Liu, Qibin Sun, Xi Ling, Jing Guo and Han Wang. High tunnelling electroresistance in a ferroelectric van der Waals heterojunction via giant barrier height modulation. Nature Electronics 2020, doi.org/10.1038/s41928-020-0441-9.
7.)Huan Zhao, Beibei Wang, Fanxin Liu et al. Fluidic Flow Assisted Deterministic Folding of Van der Waals Materials. Advanced Functional Materials 1908691 (2020).
8.)Junzheng Hu, Huikang Yu, Guangxu Su, Boxiang Song, Jie Wang, Zhenqiu Wu, Peng Zhan, Fanxin Liu,*et al. Dual-Electromagnetic Field Enhancements through Suspended Metal/Dielectric/Metal Nanostructures and Plastic Phthalates Detection in Child Urine, Advanced Optical Materials 1901305 (2019).
9.)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 1801146 (2018) (封面文章).
10.)BY&Ke Li, Ping Gu, Zhen Li, Chaojun Tang, Fanxin Liu* et al. Thermal stability of ultrathin and high dielectric ta‐C films coated with Ag nanostructures for SERS. Journal of Raman Spectroscopy 49, 431 (2018).
11.)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, Wei Wu. Probing Gap Plasmons Down toSubnanometer Scales Using CollapsibleNanofingers, ACS Nano 11, 5836 (2017).
12.)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).
13.)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).
14.)Fanxin Liu*, Hongtao Ma, Chaojun Tang, Si seed layer thickness effect on the structure of ultrathin ta-C, Surface & Coating Technology 235, 117 (2013).
15.)Fanxin Liu*et al., Silver Macro-texture Substrates Fabricated by Plasma Selective Etching for Surface-enhanced Raman Scattering, Journal of Raman Spectroscopy 44, 393(2013).
16.)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).