石伟楠

研究方向：太赫兹光谱及人工电磁超表面技术

电子邮箱：wnshi1995@163.com

简要介绍：博士毕业于南开大学THz微结构功能器件与光谱应用课题组，长期从事THz光谱技术、微结构功能器件领域的研究工作，特别是在THz时域光谱技术和基于人工电磁材料的THz微纳功能器件方面做了大量研究工作，设计、加工和测试了多种基于人工微结构的THz生物传感器。博士就读期间多次获得校一等奖学金，并获得“南开大学优秀研究生”、“南开大学优秀博士毕业生”等荣誉称号。目前在研省教育厅青年项目、校级博士启动基金项目各一项。

代表成果：

1. Shi Weinan, Fan Fei, Li Shanshan, Zhang Ziyang, Liu Hongliang, Wang Xianghui, Chang Shengjiang. Terahertz immunosensing assisted by functionalized Au NPs based on alldielectric metasurface, SENSORS AND ACTUATORS B-CHEMICAL, 2022, 362(131777).

2. Shi Wei-Nan, Wang Yi-Ming, Fan Fei, Liu Jia-Yue, Cheng Jie-Rong, Wang Xiang-Hui, Chang Sheng-Jiang. THz enantiomers of drugs recognized by the polarization enhancement of gold nanoparticles on an asymmetric metasurface. NANOSCALE, 2023, 15(34): 14146-14154.

3. Shi Weinan, Fan Fei, Ma Liang, Zhang Tian-Rui, Liu Jia-Yue, Cheng Jie-Rong, Wang Xianghui, Chang Shengjiang. Terahertz chiral enantiomers recognition via chiral selective biomolecular film on anapole metasurface sensor in water environment, OPTICS AND LASER TECHNOLOGY, 2023, 162(109274).

4. Shi Wei-Nan, Fan Fei, Zhang Tian-Rui, Liu Jia-Yue, Wang Xiang-Hui, Chang Shengjiang. Terahertz phase shift sensing and identification of a chiral amino acid based on a protein-modified metasurface through the isoelectric point and peptide bonding, BIOMEDICAL OPTICS EXPRESS, 2023, 14(3): 1096-1106.

5. Shi Weinan, Fan Fei, Li Shanshan, Ma Liang, Wang Yi-Ming, Wang Xianghui, Chang, Shengjiang. Enhanced Terahertz Specific Sensing for Alzheimers Marker by Metasurface-Analyte Union Modification on Microfluidic Sensor. IEEE SENSORS JOURNAL, 2024, 24(6): 7690-7699.