新型纳米光电材料,利用其光催化、电催化性能,降解废水中重金属离子及有机污染物,杀灭有害微生物,深入研究其机理;
新型电致变色材料及器件结构;
基于液态金属的相变材料及界面材料,应用于多种散热场景。
部分论文:
1. 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 5.532),
Available online 2 January 2023
2. 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 6.065), 2023, 59, 1983 - 1986
3. 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 9.965), 636, 537–548, 2023
4. 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 3.656), 317, 123703,
2023
5. 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 9.136), 299, 121730, 2022
6. 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 5.141) ,432, 114114,
2022
7. 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
10.383), 14, 474−483, 2022
8. 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 7.392), 571, 151277, 2022
9. 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 14.224), 422, 126946, 2022
10. 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 7.968), 9, 105490, 2021
11. 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 9.136), 265, 118510, 2021
12. Wei Wei, Ang Wei*,
et al., Three-Dimensional Structures of Nanoporous NiO/ZnO Nanoarray
Films for Enhanced Electrochromic Performance,Chemistry-An Asian Journal (IF 4.839) , 14,
431 –437, 2019
13. 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 14.224) ,365, 674–683, 2019
14. 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 5.141), 351, 145–153, 2018
15. Kaichen Xu, Jiagen Wu, Ang
Wei*, et al., Ag-CuO-ZnO metal-semiconductor multiconcentric nanotubes for achieving
superior and perdurable photodegradation, Nanoscale (IF 8.307), 9 (32),
11574-11583, 2017
16. Shao-yang Li, Ang Wei*,
et al., Methyl-viologen modified ZnO nanotubes for use in electrochromic
devices, RSC Advances (IF 4.036), 6, 72037 – 72043, 2016
17. Jia-gen Wu, Ang Wei*,
et al., Fabrication of Ag/Fe2O3/ZnO Ternary
Composite with Enhanced Photocatalytic Performance, RSC Advances (IF
4.036), 6, 4145 – 4150, 2016
18. Ran Cai, Ang Wei*,
et al., 3D graphene/ZnO composite with enhanced photocatalytic activity,
Materials & Design (IF 9.417),90, 839–844, 2016
19. Yanjun Liu, Ang Wei*,
et al., Preparation and Photocatalytic Activity of ZnO/Fe2O3
Nanotube Composites, Materials Science and Engineering B (IF 3.407),194, 9–13, 2015
20. Yan-jun Liu, Ang Wei*,
et al., Low temperature synthesis of Bi2WO6 and
its photocatalytic activities,Materials Research Bulletin (IF 5.600), 66,
96–100, 2015
21. Ang Wei, et al.,
One-step electrochemical synthesis of a graphene-ZnO hybrid for improved
photocatalytic activity, Materials Research Bulletin (IF 5.600), 48, 8,
2855–2860, 2013
22. Ang Wei, et al.,
Synthesis of high-performance graphene nanosheets by thermal reduction of
graphene oxide,Materials Research
Bulletin (IF 5.600), 46, 2131–2134, 2011
23. Ang Wei, Liuhua
Pan, et al., Recent progress in the ZnO nanostructure-based sensors,Materials Science and Engineering B (IF 4.051) ,176(18), 1409-1421, 2011
24. Ang Wei, Xiaowei
Sun, et al., Enzymatic glucose biosensor based on ZnO nanorod array
grown by hydrothermal decomposition, Appllied Physics Letters (IF
3.972), 89, 123902, 2006
25. Ang Wei, Xiaowei. Sun,
et al., Stable field emission from hydrothermally grown ZnO nanotubes, Appllied
Physics Letters (IF 3.972), 88, 213102, June 2006.
26. Ang Wei, Xiaowei
Sun, et al., Growth mechanism of tubular ZnO formed in aqueous solution,
Nanotechnology (IF 3.953), 17, 1740, 2006
部分科研项目:
1. 液态金属热界面纳米复合材料(2022外262),企业委托,2022.6-2025.6,主持
2. 光催化长效防治霉菌的关键技术攻关,苏州市社会发展科技创新项目,2021. 7-2024.6
3. 可见光催化杀灭霉菌的新型材料设计及杀菌机理研究(BK20201207),江苏省自然科学基金面上项目, 2020.7-2023.6
4.
基于氮化碳纳米复合材料的光催化杀灭真菌研究(18KJA430010),江苏省教育厅重大项目, 2018. 9-2021. 8
5.
一种超细导线的制备及其在大尺寸触控膜上的应用(2016外39),企业委托,2016. 7-2017. 12
6.
用于太阳能电池的低温银浆(2015外16),企业委托,2015. 4-2015. 9
7.
纳米银高效杀菌的研究(BY2014015),江苏省科技厅,2014.7-2016.6
8.
纳米银应用于留置针抗菌研发(2013外77),企业委托,2013. 12-2015. 12
9.
用于高效光降解有机物的纳米复合材料(BK20131376),江苏省自然科学基金面上项目,2013. 7-2016. 6
部分专利授权:
1. 一种多金属阳极自供能-多模态电致变色器件及制备方法,国际申请号PCT-CN2022-107419,国际申请日2022年7月22日
2.
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
3. 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
4. 一种利用光催化原理杀灭霉菌的方法,ZL2019108402439,2021年2月2日
5. 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
6. 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4
7. 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
8. 一种电致变色器件及其制备方法,ZL201711446543.6,2021年2月2日
9. 一种复合电致变色薄膜及其制备方法,ZL201711446485.7,2020年9月8日
10. 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
11. 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
12. 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
13. 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
14. 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
15. 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
16. 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
17. 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
18. 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
19. 全封闭交叉式真空成膜机,ZL 200720036684.6,2008年2月20日