韦中超，华南师范大学信息光电子科技学院

韦中超 Zhongchao Wei

教授、博士生导师/Professor

华南师范大学信息光电子科技学院

www.scholat.com/weizhongchao

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韦中超（1971.7-），北京师范大学物理学士，中山大学光学博士（硕博连读），美国中佛罗里达大学（University of Central Florida）光学与光子学院及化学系博士后。华南师范大学信息光电子科技学院教授、博士生导师。教学方面，先后主讲本科《应用光学》《激光原理》《光电检测技术》《光电综合设计》及研究生《光电检测与成像》《激光光谱技术与应用》等课程。科研方面，曾多年从事超快激光光谱、光子晶体的实验研究。近年来专注于人工微结构材料的特性与器件研究。内容包括但不限于：（1）光学超构材料、混合电磁材料的特性研究与器件实现；（2）光学超构表面，如平面透镜，完美吸收器的形成机理；（3）石墨烯材料的物理特性及光子器件研究；（4）类电磁诱导透明效应、广义Snell定律等物理特性研究等。主持、参与国家级科研项目十多项；发表SCI论文100余篇；是Photonics Research，Optics Letters，Optics Express等多家学术期刊审稿人。

欢迎从事博士后研究；欢迎报考光学工程、光学、材料物理与化学、电子信息方向的研究生；欢迎本科生参与科研。

办公地点：大学城校区理四栋327房

电子邮箱： wzc@scnu.edu.cn

在研项目：（1）主持国家自然科学基金: 石墨烯超材料中类电磁诱导透明的产生调控与器件设计

61774062, 2018.01-2021.12

（2）主持广东省自然科学基金：时空超表面构建研究 2021A1515010352, 2021/01－2023/12

近期论文（*为通讯作者）

[30] Hong,Yuhan, Wei,Zhongchao*.

Diverse dispersion states achieving in phase change material metalenses.

Optics Communications, 2024, 559: 130381

[29] Liu,Wenyuan, Zhuo,Yizhou, Xiao,Likun, Chen,Chen, Shang,Shu, Liu,Hongzhan, Meng,Hongyun,

Wang,Faqiang, Yang,Xiangbo, Wei,Zhongchao*.

Four-channel metasurface for multiplexing images under two nonorthogonal polarization states.

Chinese Optics Letters, 2023, 21(11): 093601

[28] Yuan,Jiadong, Li,Zuyu, Hong,Yuhan, Zhang,Yuhang, Liu,Hongzhan*, Wei,Zhongchao*.

Three-Channel Near-Field Display and Encryption Based on a Polarization Multiplexed Metasurface.

Nanomaterials, 2023, 13(10): 1638

[27] Li,Zuyu, Zhang,Yuhang, Yuan,Jiadong, Hong,Yuhan, Liu,Hongzhan, Guo,Jianping,

Dai,Qiaofeng*, Wei,Zhongchao*.

Three-Channel Metasurfaces for Multi-Wavelength Holography and Nanoprinting.

Nanomaterials, 2023, 13(1),183

[26] Li,Zuyu, Zhang,Yuhang, Huang,Hui, Qin,Shuai, Jie,Kaiqian, Liu,Hongzhan, Guo,Jianping*,

Meng,Hongyun, Wang,Faqiang, Yang,Xiangbo, Wei,Zhongchao*.

Dual-channel metasurfaces for independent and simultaneous display in near-field and far-field.

Optics Express, 2022, 30(11): 18434--18446

[25] Zhang,Yuhang, Li,Zuyu, Qin,Shuai, Huang,Hui, Jie,Kaiqian, Guo,Jianping, Liu,Hongzhan,

Meng,Hongyun, Wang,Faqiang, Yang,Xiangbo, Wei,Zhongchao*.

Band-tunable achromatic metalens based on phase change material.

Optics Express, 2022, 30(10): 17541--17553

[24] Jie,Kaiqian, Huang,Hui, Qin,Shuai, Guo,Jianping, Liu,Hongzhan, Meng,Hongyun,

Wang,Faqiang, Yang,Xiangbo, Wei,Zhongchao*.

Electronically Controlled Time-Domain Integral Average Depolarizer Based on

a Barium Titanate (BTO) Metasurface.

Nanomaterials, 2022, 12(7),1228

[23] Huang,Hui, Qin,Shuai, Jie,Kaiqian, Guo,Jianping, Dai,Qiaofeng, Liu,Hongzhan, Meng,Hongyun,

Wang,Faqiang, Yang,Xiangbo, Wei,Zhongchao*.

Dynamic generation of giant linear and circular dichroism via phase-change metasurface.

Optics Express, 2021, 29(25): 40759--40769

[22] Qin,Shuai, Huang,Hui, Jie,Kaiqian, Zeng,Sirui, Chen,Li, Liu,Hongzhan, Guo,Jianping,

Meng,Hongyun, Wang,Faqiang, Yang,Xiangbo, Wei,Zhongchao*.

Active Modulating the Intensity of Bifocal Metalens with Electrically Tunable

Barium Titanate (BTO) Nanofins.

Nanomaterials, 2021, 11(8), 2023

[21] Xu,Ning, Hao,Yuan, Jie,Kaiqian, Qin,Shuai, Huang,Hui, Chen,Li, Liu,Hongzhan,

Guo,Jianping, Meng,Hongyun, Wang,Faqiang, Yang,Xiangbo, Wei, Zhongchao*.

Electrically-Driven Zoom Metalens Based on Dynamically Controlling the Phase of

Barium Titanate (BTO) Column Antennas.

Nanomaterials, 2021, 11(3), 729

[20] Qin,Shuai , Xu,Ning , Huang,Hui , Jie,Kaiqian , Liu,Hongzhan , Guo,Jianping ,

Meng,Hongyun , Wang,Faqiang , Yang,Xiangbo , Wei,Zhongchao *.

Near-infrared thermally modulated varifocal metalens based on the phase change

material Sb2S3.

Optics Express, 2021, 29(5): 7925--7934

[19] Sun,Haoying, Zhao,Lin, Dai,Jinsong, Liang,Yaoyao, Guo,Jianping, Meng,Hongyun,

Liu,Hongzhan Dai,Qiaofeng*, Wei, Zhongchao*. Broadband Filter and Adjustable

Extinction Ratio Modulator Based on Metal-Graphene Hybrid Metamaterials.

Nanomaterials, 2020, 10, 1359

[18] Xu,Ning, Liang,Yaoyao, Hao,Yuan, Mao,Min, Guo,Jianping Liu,Hongzhan,

Meng,Hongyun, Wang,Faqiang, Wei, Zhongchao*.

A Thermal Tuning Meta-Duplex-Lens (MDL): Design and Characterization.

Nanomaterials, 2020, 10(6),1135

[17] Liang,Yaoyao, Li,Boyao, Meng,Zhao, Zhao,Lin, Mao,Min, Liu,Hongzhan,

Wei,Zhongchao*. Efficient point-by-point manipulated visible meta-vortex-lenses

with arbitrary orbital angular momentum.

Nanotechnology,2019, 31(3): 035702

[16] Mao,Min, Liang,Yaoyao, Liang,Ruisheng, Zhao,Lin, Xu,Ning, Guo,Jianping,

Wang,Faqiang, Meng,Hongyun, Liu,Hongzhan, Wei,Zhongchao*.

Dynamically Temperature-Voltage Controlled Multifunctional Device Based on

VO2 and Graphene Hybrid Metamaterials: Perfect Absorber and Highly Efficient

Polarization Converter.

Nanomaterials, 2019,9(8): 1101

[15] Dai,Jinsong, Wei,Zhongchao*, Zhao,Lin, Lin,Qiyuan, Lou,Yuyao.

A Tunable Graphene 0--90° Polarization Rotator Achieved by Sine Equation

Voltage Adjustment.

Nanomaterials, 2019, 9(6): 849

[14] Lao,Chaode, Liang,Yaoyao, Wang,Xianjun, Fan,Haihua*, Wang,Faqiang,

Meng,Hongyun, Guo,Jianping, Liu,Hongzhan, Wei,Zhongchao*.

Dynamically tunable resonant strength in electromagnetically induced

transparency (eit) analogue by hybrid metal-graphene metamaterials.

Nanomaterials, 2019, 9(2): 171

[13] Li,Runmin, Zhou,Xin, Panmai,Mingcheng, Xiang,Jin, Liu,Haiying*,

Ouyang,Min, Fan,Haihua, Dai,Qiaofeng, Wei,Zhongchao*.

Broadband zero backward scattering by all-dielectric core-shell nanoparticles.

Optics Express, 2018, 26(22):28891--28901

[12] Liang,Yaoyao, Wei,Zhongchao*, Guo,Jianping, Wang,Faqiang,

Meng,Hongyun, Liu,Hongzhan. Metalenses Based on Symmetric Slab Waveguide

and c-TiO2: Efficient Polarization-Insensitive Focusing at Visible Wavelengths.

Nanomaterials, 2018, 8(9): 699

[11] Wang,Wei, Meng,Zhao, Liang,Ruisheng, Chen,Shijie, Ding,Li, Wang,Faqiang,

Liu,Hongzhan, Meng,Hongyun, Wei,Zhongchao*.

A dynamically tunable plasmonic multi-functional device based on graphene

nano-sheet pair arrays.

Optics Communications, 2018, 415: 130--134

[10] Liang,Yaoyao, Liu,Hongzhan*, Wang,Faqiang, Meng,Hongyun, Guo,Jianping,

Li,Jinfeng, Wei,Zhongchao*. High-efficiency, near-diffraction limited,

dielectric metasurface lenses based on crystalline titanium dioxide at visible wavelengths.

Nanomaterials, 2018, 8(5): 288

[9] Zhong,Nianfa, Dai,Qiaofeng*, Liang,Ruisheng, Li,Xianping, Tan,Xiaopei,

Zhang,Xiaomeng, Wei,Zhongchao*, Wang, Faqiang, Liu,Hongzhan, Meng, Hongyun.

Analogue of electromagnetically induced absorption with double absorption windows

in a plasmonic system.

PloS One,2017, 12(6): 179609

[8] Wei,Zhongchao#, Liu,Yuebo#, Xiao,Shuyuan, Li,Xianping, Zhong,Nianfa, Liu,Hongzhan,

Wang,Faqiang, Liang,Ruisheng*. Angular and Wavelength Simultaneous Selection in

Transparent OPVs Based on Near-Infrared Bragg Reflector and Antireflection Coating.

IEEE Photonics Journal,2016, 9(1): 1--8

[7] Wei,Zhongchao#, Li,Xianping#, Zhong,Nianfa, Tan,Xiaopei, Zhang,Xiaomeng,

Liu,Hongzhan, Meng,Hongyun, Liang,Ruisheng*.

Analogue electromagnetically induced transparency based on low-loss metamaterial

and its application in nanosensor and slow-light device.

Plasmonics,2017, 12(3): 641--647

[6] Wei,Zhongchao#, Zhong,Nianfa#, Zhang,Xiaomeng, Li,Xianping, Tan,Xiaopei,

Liang,Ruisheng*, Meng,Hongyun, Wang,Faqiang, Liu,Hongzhan. Multifunctional

sensors and switch in MDM waveguide with symmetric dual side-coupled nanodisks.

IEEE Photonics Technology Letters, 2016, 28(24):2893--2896

[5] Wei,Zhongchao#, Zhang,Xiaomeng#, Zhong,Nianfa, Tan,Xiaopei, Li,Xianping,

Liu,Yuebo, Wang,Faqiang, Meng,Hongyun, Liang,Ruisheng*.

Optical band-stop filter and multi-wavelength channel selector with plasmonic

complementary aperture embedded in double-ring resonator.

Photonics and Nanostructures-Fundamentals and Applications, 2017, 23: 45--49

[4] Wei,Zhongchao#, Li,Xianping#, Yin,Jianjun, Huang,Rong, Liu,Yuebo, Wang,Wei,

Liu,Hongzhan, Meng,Hongyun, Liang,Ruisheng*.

Active plasmonic band-stop filters based on graphene metamaterial at THz wavelengths.

Optics Express, 2016, 24(13):14344--14351

[3] Li,Xianping, Wei,Zhongchao*, Liu,Yuebo, Zhong,Nianfa, Tan,Xiaopei, Shi,Songsong,

Liu,Hongzhan, Liang,Ruisheng. Analogy of electromagnetically induced transparency in

plasmonic nanodisk with a square ring resonator.

Physics Letters A, 2016, 380(1-2): 232--237

[2] Shi,Songsong, Wei,Zhongchao*, Lu,Zhiyang, Zhang,Xiaomeng, Li,Xianping,

Liu,Hongzhan, Liang,Ruisheng.

Enhanced plasmonic band-pass filter with symmetric dual side-coupled nanodisk resonators.

Journal of Applied Physics, 2015, 118(14): 143103

[1] Guo,Jian, Wei,Zhongchao*, Liu,Yuebo, Huang,Aili.

Analysis of optical vortices with suppressed sidelobes using modified Bessel-like function

and trapezoid annulus modulation structures.

Journal of Optical Society of America, A, 2015, 32(2): 195--203

全部论文列表请看：

https://www.researchgate.net/profile/Zhongchao-Wei/research

授权发明专利

[05] 韦中超 许宁揭凯茜黄辉秦帅/ 基于动态控制钛酸钡天线的电动变焦超透镜及其控制方法

发明专利 ZL202110149716.8

[04] 韦中超 孙昊瀛许宁/一种实现类电磁诱导透明效应的超材料及方法

发明专利 ZL201910671613.0

[03] 韦中超 毛敏/一种基于VO2及石墨烯混合超材料的多功能器件

发明专利 ZL201910589920.4

[02] 韦中超 梁瑶瑶毛敏/一种高效率超表面涡旋聚焦透镜

发明专利 ZL201910016988.3

[01] 韦中超 张小蒙雷振宇钟年发谭晓佩李先平汪伟/一种大角度离轴聚焦平面透镜

发明专利 ZL201710230660.2

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