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苏巍

职称: 副教授

部门: 力学与工程科学学院党委 力学与工程科学学院

学科: 物理学

教学部门: 理学院党委、理学院,理学院党委、理学院

电话: 18661191507

邮件: opticsu@hhu.edu.cn

办公地址: 常州校区英才楼A415

通讯地址: 江苏省常州市晋陵北路200号

邮编: 213022

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个人简介

 Apr. 2024

苏巍WeiSu

副教授,硕士生导师(物理学、机械)

理学院,河海大学

手机:18661191507QQ448036536

邮箱:opticsu@hhu.edu.cnopticSu@hotmail.com

教育经历:

  • 2010.09-2016.01    南京理工大学理学院    光学工程    硕博连读

  • 2013.09-2015.08    维多利亚大学(加拿大)          博士联合培养

  • 2006.09-2010.07    南京理工大学理学院    应用物理    学士

工作经历:

  • 2020.01至今          副教授    理学院     河海大学

  • 2019.07-2019.12    副教授    基础学部    河海大学

  • 2016.05-2019.06    讲师     基础学部    河海大学

研究方向:

  • 基于表面增强拉曼光谱、红外光谱等光谱技术的水环境污染物分析

  • 超表面光学(物理机理、器件设计)

  • 机器学习(深度学习)在上述领域的应用研究

已发表论文:

2024年:

1.      Yinlong Luo(研三), Wei Su*, Mir Fazle Rabbi, Qihang Wan, Dewen Xu, Zhenfeng Wang, Shusheng Liu, Xiaobin Xu, Jian Wu, “Quantitative analysis of microplastics in water environments based on Raman spectroscopy and convolutional neural network”, Science of the Total Environment, 926, 171925 (2024).

2.      Zhipeng Ding(研三), Wei Su*, Yinlong Luo, Lipengan Ye, Wenlong Li, Yuanhang Zhou, Bin Tang, Jianfei Zou, HongBing Yao*, “Inverse design of twisted bilayer graphene metasurface for terahertz absorption broadening based on artificial neural network”, Optics and Laser Technology,176, 110891 (2024).

3.      Zhipeng Ding(研三), Wei Su*, Lipengan Ye, Wenlong Li, Yuanhang Zhou, Bin Tang, Jianfei Zou, HongBing Yao*, “Deep learning based inverse design of metasurface absorber for maximizing solar spectral absorption”, Solar Energy,271, 112449 (2024).

4.      Zhipeng Ding(研三), Wei Su*, Lipengan Ye, Yuanhang Zhou, Wenlong Li, Jianfei Zou, Bin Tang, HongBing Yao*, “Thermal controlled multi-functional metasurface for freely switching of absorption, reflection, and transmission”, Physical Chemistry Chemical Physics, 26, 8460 (2024).

5.      Zhipeng Ding(研三), Wei Su*, Yinlong Luo, Lipengan Ye, Wenlong Li, Yuanhang Zhou, Jianfei Zou, Bin Tang, HongBing Yao*, “Metasurface inverse designed by deep learning for quasi-entire terahertz wave absorption”, Nanoscale, 16, 1384-1393 (2024).

6.      Lipengan Ye(研二), Wei Su*, Jianfei Zou, Zhipeng Ding, Yinlong Luo, Wenlong Li, Yuanhang Zhou, Hong Wu, Hongbing Yao*, “Ultra-broadband composite terahertz absorber prediction based on K-nearest neighbor”, Optics and Laser Technology, 170, 110208 (2024).

2023年:

7.      Yuanhang Zhou(博三), Hongbing Yao*, Pengyu Wei, Aixin Feng, Xiang He, Jiang Yue, Wei Su*, Weihua Zhu, “Study on cavitation erosion resistance of bimodal grain copper alloy fabricated by laser shock peening”, Journal of Materials Research and Technology, 25, 1813-1823 (2023).

8.      Zhipeng Ding(研三), Wei Su*, Farhad Hakimi, Yinlong Luo, Wenlong Li, Yuanhang Zhou, Lipengan Ye, Hongbing Yao, “Machine learning in prediction of MXenes-based metasurface absorber for maximizing solar spectral absorption”, Solar Energy Materials and Solar Cells, 262, 112563 (2023).

9.      Zhipeng Ding(研三), Wei Su*, Yinlong Luo, Lipengan Ye, Wenlong Li, Yuanhang Zhou, Bin Tang, HongBing Yao*, “Artificial neural network-based inverse design of metasurface absorber with tunable absorption window”, Materials & Design, 234, 112331 (2023).

10.   Zhipeng Ding(研二), Wei Su*, Yinlong Luo, Lipengan Ye, Hong Wu, HongBing Yao*, “Machine learning in design of broadband terahertz absorbers based on composite structures”, Materials & Design, 233, 112215 (2023).

11.   Wei Su*, Yuchi Liu, Zhipeng Ding, Zhaoshun Meng, Hong Wu, Bingyan Chen, “Near-infrared electromagnetic excitations in Si1-xGex alloy semiconductor based permittivity-asymmetric metasurface”, Materials Science in Semiconductor Processing, 167, 107767 (2023).

12.   Wei Su*, Zhipeng Ding, Yinlong Luo, Lipengan Ye, Hong Wu, Hongbing Yao, “Machine learning-enabled design of metasurface based near-perfect daytime radiative cooler”, Solar Energy Materials and Solar Cells, 260, 112488 (2023).

13.   Yinlong Luo(研二), Wei Su*, Dewen Xu, Zhenfeng Wang, Hong Wu, Bingyan Chen, Jian Wu, “Component identification for the SERS spectra of microplastics mixture with convolutional neural network”, Science of the Total Environment, 895, 165138 (2023).

14.   Zhipeng Ding(研二), Wei Su*, Lipengan Ye, Hong Wu, HongBing Yao*, “An electrical/thermal dual-controlled quad-functional terahertz metasurface absorber”, Physical Chemistry Chemical Physics, 25, 16331-16339 (2023).

15.   Wei Su*, Hanwen Lu, Deyu Song, Hong Wu, “Self-adaptive photonic thermal management based on a flexible metasurface”, Optics and Laser Technology, 167, 109690 (2023).

16.   Zhipeng Ding(研二), Wei Su*, H. Wu, Wenlong Li, Yuanhang Zhou, Lipeng Ye, HongBing Yao*, “Ultra-broadband tunable terahertz absorber based on graphene metasurface with multi-square rings”, Materials Science in Semiconductor Processing, 163, 107557 (2023).

17.   Zhipeng Ding(研二), Wei Su *, Yinlong Luo, Lipengan Ye, Hong Wu, Hongbing Yao*, “Design of an ultra-broadband terahertz absorber based on a patterned graphene metasurface with machine learning”, Journal of Materials Chemistry C, 11, 5625-5633 (2023).(front cover)

18.   Zhipeng Ding(研二), Wei Su*, Hanwen Lu, Hong Wu, Hongbing Yao*, “Terahertz absorber based on double-layer graphene metasurface with tunable absorption window and intensity”, Optics and Laser Technology, 163, 109446 (2023).

19.   Yinlong Luo(研二), Wei Su*, Xiaobin Xu, Dewen Xu, Zhenfeng Wang, Hong Wu, Bingyan Chen, Jian Wu, “Raman Spectroscopy and Machine Learning for Microplastics Identification and Classification in Water Environments”, IEEE Journal of Selected Topics in Quantum Electronics, 29(4), 6900308 (July-Aug. 2023).

2022年:

20.   X.Y. Chen(本科), W. Su*, Z. Geng, Z.S. Meng, H. Wu, “A multi-band terahertz plasmonic absorber based on fan-like metasurface”, Optik, 267, 169701 (2022).

21.   D.W. Xu(研一), W. Su*, H.W Lu, Y.L. Luo, T.A. Yi, J. Wu*, H. Wu, C. Yin, B.Y. Chen, “A gold nanoparticle doped flexible substrate for microplastics SERS detection”, Physical Chemistry Chemical Physics, 24(19), 12036-12042 (Apr. 11, 2022).

22.   T.A. Yi(研三), W. Su*, Q. Yu, H. Wu, K. Guo, H.Q. Deng, C. Yin, J.T. Yan, J. Wu*, B.Y. Chen, “Gold nanospheres assembly via corona discharge technique for flexible SERS substrate”, Optics Express, 30(4), 5131-5141 (Feb. 14, 2022).

2021年:

23.   W. Su*, Y.L. Luo(本科), Y.M. Ding, J. Wu, “Low-cost surface plasmon resonance refractive index sensor based on the metal grating in DVD-ROM disc”, Sensors and Actuators A: Physical, 330, 112858 (May. 28, 2021).

24.   W. Su*, Z. Geng(本科), JC. Qi, H. Wu, “Multi-Fano resonances in graphene coated all-dielectric metasurface for refractive index sensing with high figure of merits,” IEEE Journal of Selected Topics in Quantum Electronics, 27(1), 8300206 (Jan. 1, 2021).

2020年:

25.   W. Su*, X.Y. Chen(本科), Z. Geng, YL. Luo, B.Y. Chen, “Multiple Fano resonances in all-dielectric elliptical disk-ring metasurface for high-quality refractive index sensing,” Results in Physics, 18, 103340 (Aug. 18, 2020).

26.   W. Su*, Y. Liu(本科), BY. Chen, “Multiple Fano resonances in asymmetric rectangular ring resonator based on graphene nanoribbon,” Results in Physics, 17, 103121 (Apr. 20, 2020).

27.   W. Su*, YM. Ding(本科), YL. Luo, Y. Liu, “A high figure of merit refractive index sensor based on Fano resonance in all dielectric metasurface,” Results in Physics, 16, 102833 (Jan. 1, 2020).

2020年前:

28.   W. Su*, XY. Chen(本科), Z. Geng, “Dynamically tunable dual-frequency terahertz absorber based on graphene rings,” IEEE Photonics Journal, 11(6), 4601908 (Dec.1, 2019).

29.   TA. Yi(研一), W. Su*, Z. Geng, “Third-harmonic generation from double nanohole aperture in gold film,” IEEE Photonics Technology Letters, 31(24), 1936-1939 (Dec. 15, 2019). 

30.   W. Su*, XY. Wang(本科), Z. Geng, Y. Liu, “A simple graphene nanoribbon structure-based terahertz all-optical logic gates with fano resonance,” Optical Materials,97, 109401 (Sep. 25, 2019).

31.   W. Su*, “A four-port ultra-compact terahertz splitting filter based on graphene nanoribbon,” IEEE Photonics Technology Letters, 31(1), 86-89 (Jan.1, 2019).

32.   W. Su*, Z. Geng(本科), “Terahertz all-optical logic gates based on a graphene nanoribbon rectangular ring resonator,” IEEE Photonics Journal, 10(6), 5900608 (Dec.1, 2018).

33.   W. Su*, XY. Li, J. Bornemann, R. Gordon, “Theory of nanorod antenna resonances including end-reflection phase,” Physical Review B, 91, 165401 (2015).

科研项目:

  • JKW1**工程项目,基于***动态可调谐***的设计,项目批准号:涉密***202210月至20249月,100万元,主要参与者,排名2,在研

  • 南通市科学技术局,南通市科技项目基础科学研究,JC2021071,试纸型SERS基底的研制及其对饮用水中微塑料的检测应用,20217月至20236月,3万元,在研,主持

  • 教育部,中央高校基本科研业务费项目,B210202150,基于超表面结构的多功能器件设计与研究,20211月至202212月,8万元,结题,主持

  • 常州市科技局,常州市科技项目应用基础研究计划,CJ20200073,试纸型柔性SERS基底的制备及其在饮用水微塑料检测中的应用研究,20205月至20225月,5万元,结题,主持

  • 教育部,中央高校基本科研业务费项目,2019B21314,全介质超表面器件的设计研究,20191月至202012月,8万元,结题,主持

  • 国家自然科学基金(青年基金),基于纳米双孔有序阵列的SPR-SERS效应及其在微囊藻毒素检测中的应用研究,6170505825万元,20181月至202012月,已结题,主持

  • 江苏省自然科学基金(青年基金),基于周期性纳米双孔结构的SPR-SERS效应及对微囊藻毒素的高灵敏度检测,BK2017030220万元,20177月至20206月,已结题

研究生:

  • 研三:罗寅龙,徐德文,丁志鹏(合作指导)

  • 研二:王振丰,叶李鹏安(合作指导),胡燕超(合作指导)

  • 研一:刘树生,胡昆(合作指导),包玉(合作指导)

  • 已毕业生:易恬安(2019-2022,江西省**委)

招生信息:

  • 每年计划招收物理学学硕1-2人和机械专硕1-2人。欢迎同学们加入!!


个人资料

  • 姓名: 苏巍
  • 性别:
  • 学位: 博士
  • 出生年月: 1988-06-03 00:00:00.0
  • 学历: 博士研究生
  • 毕业院校: 南京理工大学

教育经历

  • 2006年9月-2010年7月,南京理工大学,应用物理学,学士
  • 2010年9月-2016年1月,南京理工大学,光学工程,博士

工作经历

研究领域

科研项目

  • 1、基于纳米双孔有序阵列的SPR-SERS效应及其在微囊藻毒素检测中的应用研究,2018.01.01-,国家自然科学基金委员会,基础学部(分设人文社科部、外语、数理、体育教学部)
  • 2、基于周期性纳米双孔结构的SPR-SERS效应及对微囊藻毒素的高灵敏度检测,2017.07.01-,江苏省科学技术厅,常州校区数理教学部
  • 3、基于纳米双孔结构的SERS基底设计制备及其在太湖微囊藻毒素检测中的应用研究,2017.04.20-,常州市科学技术局,常州校区数理教学部
  • 4、全介质超表面器件的设计研究,2019.01.01-2020.12.31,基础学部(分设人文社科部、外语、数理、体育教学部)

论文

科技成果

开授课程

  • 1、大学物理Ⅰ,本科生,81,48
  • 2、大学物理Ⅱ,本科生,54,48

教学成果

教学资源

社会职务

荣誉及奖励

招生信息