个人简历：

2003-2006年，复旦大学，获理学博士学位；

2004-2005年，新加坡南洋理工大学，Research Associate；

2006-今，南京邮电大学，任教授、博士生导师。

在国际重要刊物发表SCI论文60余篇，被SCI文章他引用3700余次，申请中国专利48件（其中发明专利授权39件、实用新型专利授权4件）、PCT专利2件，主持各级各类项目20余项。

部分论文：

1.    Fengming Hou, Wei Wei, Ang Wei*, et al., Leveraging the capture and disturbance effects to break the trade-off between high flux and high removal rate in photocatalytic membranes for continuous flow water disinfection, Separation and Purification Technology (IF 8.1), 2025, 358,130334

2.    Jianning Gao, Zhipeng Guo, Ang Wei*, et al., Linkage engineered poly(heptazine imide) optimizes charge transfer for efficient photocatalytic H₂O₂ production: Regulating oxygen reduction pathway, Chemical Engineering Journal (IF 13.4), 2024, 500, 156852

3.    Zhipeng Guo, Wei Wei, Ang Wei*, et al., Precisely constructed core-shell organic/inorganic heterojunction for heightened photoreduction of Cr(VI): Synergy of reinforced interface interaction and high-speed carrier transfer, Journal of Industrial and Engineering Chemistry (IF 6.2), 2025, 143, 437-446

4.    Fengming Hou, Wei Wei, Ang Wei*, et al., In situ carbothermal reduction of oxygen vacancies in monoclinic WO_3-x film for dual-band electrochromic windows，Ceramics International (IF5.1), 2024, 50 (18), 33400-33408

5.    Wei Guo, Wei Wei, Ang Wei*, et al., Spatial separation of photocarriers and selective adsorption on flower-like core-shell heterojunction of Cr(VI) imprinted polymer@BiOI for boosted photocatalytic Cr(VI) reduction, Journal of the Taiwan Institute of Chemical Engineers (IF 5.5), 2024, 161, 105525

6.    Zhipeng Guo, Wei Wei, Ang Wei*, et al., Cu single atoms anchored on hydrangea-like carbon nitride for facilitating photo-Fenton: Role of Cu²⁺/Cu⁺ cycle, Separation and Purification Technology (IF 8.1), 2024, 344, 127290

7.    Wei Guo, Wei Wei, Ang Wei*, et al., Hydrothermal carbonization carbon induced synthesis of flower-like C/Bi/BiOI heterojunction with heightened photocatalytic Cr(VI) reduction, Applied Surface Science (IF 6.3), 2024, 651, 159217

8.    Wei Wei, Libang Ai, Ang Wei*, et al., Liquid Metal Encased in Biomimic Polydopamine Armor to Reinforce Photothermal conversion and Photothermal Stability, Chemistry-an Asian Journal (IF 3.5), 2024, 19 (6), e202301038

9.    Fengming Hou, Wei Wei, Ang Wei*, et al., Target-oriented functionalization: Turning carbon nitride into a round-the-clock antimicrobial photocatalyst in water disinfection，Chemical Engineering Journal (IF 13.4), 2023, 477, 147039

10.  Wei Wei, Xiaoke Zhang, Ang Wei*, et al., Controlling crystallinity of oxygen-deficient tungsten oxide on SnO₂ nanoflake arrays for advanced dual-band electrochromic smart window, Ceramics International (IF 5.1), 2023, 49 (9), 14109-14119

11.  Zhipeng Guo, Wei Wei, Ang Wei*, et al., Pyridine-based conjugated imprinted polymer as an adsorptive photocatalyst for efficient removal of aqueous Cr(VI), Chemical Communications (IF 4.3), 2023, 59, 1983-1986

12.  Wei Wei, Leilei Zou, Ang Wei*, et al., Dual molecules engineered carbon nitride for achieving outstanding photocatalytic H2O2 production，Journal of Colloid and Interface Science (IF 9.9), 2023, 636, 537–548

13.  Fengming Hou, Zekai Sheng, Ang Wei*, et al., NiTi-layered double hydroxide as an efficient photocatalytic fungicide of Aspergillus fumigatus spores: Capacity and mechanism, Journal of Solid State Chemistry (IF 3.2), 2023, 317, 123703

14.  Yihang Li, Wei Wei, Ang Wei*, et al., Double-sided assembly of 0D polydopamine on 1D hexagonal tubular carbon nitride for boosting photocatalytic Cr(VI) reduction, Separation and Purification Technology (IF 8.1), 2022, 299, 121730

15.  Zekai Sheng, Fengming Hou, Ang Wei*, et al., Highly efficient and photo-triggered elimination of Aspergillus fumigatus spores by Zn-Ti layered double hydroxide, Journal of Photochemistry & Photobiology, A: Chemistry (IF 4.1), 2022, 432, 114114

16.  Ting Wang, Zhenlong Bai, Ang Wei*, et al., β-cyclodextrin-derivative-functionalized graphene oxide/graphitic carbon nitride composites with a synergistic effect for rapid and efficient sterilization, ACS Applied Materials & Interfaces (IF 8.5), 2022, 14, 474−483

17.  Wei Wei, Zeyang Li, Ang Wei*, et al., An electrochromic window based on hierarchical amorphous WO₃/SnO₂ nanoflake arrays with boosted NIR modulation，Applied Surface Science (IF 6. 3), 2022, 571,151277

18.  Zhipeng Guo, Wei Wei, Ang Wei*, et al., Cr(VI)-imprinted polymer wrapped on urchin-like Bi₂S₃ for reduced photocorrosion and improved photoreduction of aqueous Cr(VI), Journal of Hazardous Materials (IF 12.2), 2022, 422, 126946

19.  Wei Wei, Qian Zhang, Ang Wei*, et al., Cyano group modulated porous carbon nitride assisted by silver nanowire for boosting photoreduction of aqueous Cr(VI)，Journal of Environmental Chemical Engineering (IF 7.4), 2021, 9, 105490

20.  Huanhuan Zhang, Wei Wei, Ang Wei*, et al., Visible-light-driven photocatalytic disinfection of Aspergillus Fumigatus under germinative biomorph: efficiency and mechanism，Separation and Purification Technology (IF 8.1), 2021, 265, 118510

21.  Wei Wei, Ang Wei*, et al., Three-Dimensional Structures of Nanoporous NiO/ZnO Nanoarray Films for Enhanced Electrochromic Performance，Chemistry-an Asian Journal (IF 3.5), 2019, 14, 431–437

22.  Mao Ye, Wei Wei, Ang Wei*, et al., Enhanced visible light photoreduction of aqueous Cr(VI) by Ag/Bi₄O₇/g-C₃N₄ nanosheets ternary metalnon-metal Z-scheme heterojunction，Journal of Hazardous Materials (IF 12.2), 2019, 365, 674–683

23.  Mao Ye, Wei Wei, Ang Wei*, et al., Silver nanoparticles graphitic carbon nitride nanosheets for improved visible-light-driven photocatalytic performance，Journal of Photochemistry and Photobiology A: Chemistry (IF 4.1), 2018, 351, 145–153

24.  Kaichen Xu, Jiagen Wu, Ang Wei*, et al., Ag-CuO-ZnO metal-semiconductor  multiconcentric nanotubes for achieving superior and perdurable photodegradation, Nanoscale (IF 5.8), 2017, 9 (32), 11574-11583

25.  Shao-yang Li, Ang Wei*, et al., Methyl-viologen modified ZnO nanotubes for use in electrochromic devices, RSC Advances (IF 3.9), 2016, 6, 72037–72043

26.  Jia-gen Wu, Ang Wei*, et al., Fabrication of Ag/Fe₂O₃/ZnO Ternary Composite with Enhanced Photocatalytic Performance, RSC Advances (IF 3.9), 2016, 6, 4145–4150

27.  Ran Cai, Jia-gen Wu, Ang Wei*, et al., 3D graphene/ZnO composite with enhanced photocatalytic activity, Materials & Design (IF 7.6), 2016, 90, 839–844

28.  Yanjun Liu, Ang Wei*, et al., Preparation and Photocatalytic Activity of ZnO/Fe₂O₃ Nanotube Composites, Materials Science and Engineering B (IF 3.9), 2015, 194, 9–13

29.  Yan-jun Liu, Ran Cai, Ang Wei*, et al., Low temperature synthesis of Bi₂WO₆ and its photocatalytic activities, Materials Research Bulletin (IF 5.3), 2015, 66, 96–100

30.  Wei Ang, Xiong Li, et al., CuO Nanoparticle Modified ZnO Nanorods with Improved Photocatalytic Activity, Chinese Physics Letters (IF 3.5), 2013, 30, 4, 046202

31.  Ang Wei, Li Xiong, Xiaochen Dong et al., One-step electrochemical synthesis of a graphene-ZnO hybrid for improved photocatalytic activity, Materials Research Bulletin (IF 5.3), 2013, 48, 8, 2855–2860

32.  Wei Ang, Wang Zhao, Wei Huang, et al., Room-Temperature NH3 Gas Sensor Based on Hydrothermally Grown ZnO Nanorods, Chinese Physics Letters (IF 3.5), 2011, 28, 8, 080702

33.  Wei Ang, Li Wei-Wei, Wei Huang, et al., Single-Walled Carbon Nanotube Networked Field-Effect Transistors Functionalized with Thiolated Heme for NO₂ Sensing, Chinese Physics Letters (IF3.5), 2011, 28, 12, 127304

34.  Ang Wei, Xiaochen Dong et al., Synthesis of high-performance graphene nanosheets by thermal reduction of graphene oxide, Materials Research Bulletin (IF 5.3), 2011, 46, 2131–2134

35.  Ang Wei, Liuhua Pan, Wei Huang, Recent progress in the ZnO nanostructure-based sensors，Materials Science and Engineering B (IF 3.9), 2011, 176(18), 1409-1421

36.  A. Wei, X. W. Sun, W Huang, et al., Enzymatic glucose biosensor based on ZnO nanorod array grown by hydrothermal decomposition, Appllied Physics Letters (IF 3.5), 2006, 89, 123902

37.  A. Wei, X. W. Sun, W Huang, et al., Stable field emission from hydrothermally grown ZnO nanotubes, Applied Physics Letters (IF 3.5), 2006, 88, 213102

38.  A. Wei, X. W. Sun, W. Huang, et al., Growth mechanism of tubular ZnO formed in aqueous solution, Nanotechnology (IF 2.9), 2006, 17, 1740

 部分专利授权：

1.    一种季铵盐功能化石墨相氮化碳抗菌材料及其制备方法与应用，ZL 202211347888.7，2024年7月19日

2.    一种接枝N-卤胺的金属有机框架光催化杀菌剂及其制备方法与应用，ZL 2022 1 1347775.7，2024年07月19日

3.    一种多金属阳极自供能-多模态电致变色器件及制备方法，ZL202210543868，2024年4月2日

4.    一种基于柔性导电纤维膜应变传感器的远程遥控系统，ZL 2021 1 1450939.4，2024年11月12日

5.    一种管状g-CN/CuS/Cu2S纳米复合材料及其制备方法和应用，ZL2019107299337，2022年4月22日

6.    一种大面积图案化固态电致变色薄膜及其制备方法和用途，ZL201910850801X，2021年10月26日

7.    一种利用光催化原理杀灭霉菌的方法，ZL2019108402439，2021年2月2日

8.    一种多层同轴结构微电缆及其制备方法，ZL201910548059.7，2021年2月26日

9.    一种制备金属/聚合物复合导电纤维的装置及方法，ZL201910417828.X，2020年4月21日

10.  一种基于有机无机复合材料的电致变色器件，ZL201810038923.4，2021年3月30日

11.  一种电致变色器件及其制备方法，ZL201711446543.6，2021年2月2日

12.  一种复合电致变色薄膜及其制备方法，ZL201711446485.7，2020年9月8日

13.  一种二氧化钛包覆铜纳米复合材料及其制备方法和应用，ZL201711320140.7，2020年9月8日

14.  一种银包覆铜纳米粉体及其制备方法和应用，ZL201711317428.9，2020年1月17日

15.  具有紫外固化和紫外臭氧清洗功能的灯箱，ZL 2017110225293，2018年5月8日

16.  一种具有抗菌属性的仿真花及其制备方法，ZL 201510738965.5，2018年6月11日

17.  基于ZnO纳米管的电致变色器件及其制备方法，ZL 201510848178.6, 2018年5月31日

18.  一种用于氮化硅基底上的银浆制备方法，ZL 2015110002991，2018年3月2日

19.  用于PVC基底上印制天线的银浆的制备方法, ZL 2015108223816，2017年7月18日

20.  一种基于激光熔融的打印喷头装置，ZL 2015 1 0120166.1，2016年8月24日

21.  一种可控制备纳米或微米器件的方法，ZL 201010195155.7，2011年10月5日

22.  全封闭交叉式真空成膜机，ZL 200720036684.6，2008年2月20日