王吕阳-深圳技术大学-新材料与新能源

王吕阳

来源：作者：点击数：日期：2022/01/06

王吕阳副教授

个人介绍：

王吕阳，理学博士，副教授，深圳市海外高层次人才“孔雀计划”B类人才。2009年本科毕业于吉林大学化学学院。2015年2月在韩国成均馆大学化学系获有机化学博士学位，师从Hyoyoung Lee教授。2015年3月，加入香港理工大学应用生物与化学科技系，从事博士后研究工作，指导教授为黄国贤教授。2015年9月获博士后奖学金，研究方向为无机纳米粒子表面无序化结构对光催化反应的影响。2017年4月，加入深圳技术大学筹备办公室。在Advanced Materials, Journal of the American Chemical Society, Energy & Environmental Science等领域内重要期刊发表论文22篇（引用800次，h10-index 11），获授权中国专利5项，美国专利2项。主持国家自然科学基金青年项目等多项课题。

教育背景：

2009.09-2015.02 成均馆大学，化学学院，有机化学，博士

2009.09-2013.05 长春中医药大学，药学院，药剂学，硕士

2005.09-2009.06 吉林大学，化学学院，本科

工作经历：

2021.07-至今深圳技术大学，新材料与新能源学院，副教授

2017.04-2021.06 深圳技术大学，新材料与新能源学院，助理教授

2015.03-2017.04 香港理工大学，应用化学与生物技术系，博士后研究员

主要荣誉：

• 2018年入选深圳市孔雀计划B类人才

• 深圳技术大学筹建工作“先进个人”

研究方向：

1.表面局域化缺陷构造；

2.锂电池正极材料低排放可控回收技术；

3.光催化碳中和技术。

科研项目（近三年）：

1.有序-无序异质结结构的可控合成及其光催化产氢性能研究，国自然青年项目，25万元，在研，2020-2022；

2.有序-无序半导体纳米材料合成及其光催化降解研究，广东省青年创新人才项目，5万元，已结题，2019-2021；

3.有机还原反应在清洁能源生产和电池材料回收中的应用研究，2019106101003，深圳市海外高层次人才启动项目，450万元，在研，2019-2021；

4.基于石墨烯-半导体纳米粒子复合物的易挥发性有机物光催化降解研究，深圳技术大学新引进教师启动项目，10万元，已结题；

5.深圳技术大学国自然青年基金配套项目，100万元，已结题。

代表论文：

1. Selective Introduction of Surface Defects in Anatase TiO₂ Nanosheets for Highly Efficient Photocatalytic Hydrogen Generation, J Qiu, H Feng, Z Chen, S Ruan, Y Chen,T Xu, J Su, E Ha, L Wang*, Rare Metals, 2022 accepted

2. Boosting Charge Transport in BiVO₄ Photoanode for Solar Water Oxidation Y Lu, Y Yang, X Fan, Y Li, D Zhou, B Cai, L Wang, K Fan, K Zhang* Advanced Materials, 2021, 2108178

3. Two photon tandem photoanode with black phosphorous quantum dot sensitized BiVO₄ for solar water splitting B Jin, Y Cho, C Park, J Jeong, S Kim, J Jin, W Kim, L Wang, S Lu, S Zhang, S Oh, K Zhang*, J Park*. Energy & Environmental Science, 2021 accepted

4. P-Type AsP Nanosheet as an Electron Donor for Stable Solar Broad-Spectrum Hydrogen Evolution, C. Lin, L. Jiang, D. Hu, Y. Li, B. Cai, J. Li, Y. Gu, L. Wang*, K. Zhang*, and H. Zeng*, ACS Applied Materials & Interfaces 2021 13 (46), 55102-55111 DOI: 10.1021/acsami.1c16670

5. Dual-Modified Cu₂S with MoS₂ and Reduced Graphene Oxides as Efficient Photocatalysts for H₂ Evolution Reaction, E. Ha, Z. Xin, D. Li, J. Zhang, T. Ji, X. Hu, L. Wang and J. Hu Catalysts 2021, 11(11), 1278

6. Surface Disorder Engineering in ZnCdS for Cocatalyst Free Visible Light Driven Hydrogen Production. E.Ha,†,*, S. Ruan,†, D. Li, Y. Zhu, Y. Chen, J. Qiu, Z. Chen, T. Xu, J. Su, L. Wang,*, J. Hu* Nanoresearch, 2021 accepted

7. Dissociation via Control of Intrinsic Oxygen Defects for Awakening Solar H₂O-to-H₂O₂ Generation. Wang, L. Y., Lu, Y., Han, N. N., Dong, C. R.,Lin, C., Lu, S. Y., Min, Y. L., Zhang, K. Small, 2021, 17, 2100400

8. Secondary-structured LiFePO₄cathode with high tap density and reversible capacity ,T. Xu ,J. Su ,E. Ha* , L. Wang* Materials Letters, 274, 2020, 128006

9. Near-Complete Suppression of Oxygen Evolution for Photoelectrochemical H₂O Oxidative H₂O₂ Synthesis, K. Zhang*, J. Liu, L.Wang, B. Jin, J. H. Park* J. Am. Chem. Soc., 2020, 142, 19, 8641–8648

10. Engineering of 2d/2d Mos₂/Cd_xZn₁_‐_XS Photocatalyst for Solar H₂ Evolution Coupled with Degradation of Plastic in Alkaline Solution, Y. Li, S. Wan, C. Lin, Y. Gao, Y. Lu, L. Wang and K. Zhang* Solar RRL, 2020, 202000427

11. Awakening Solar Hydrogen Evolution of MoS₂ in Alkalescent Electrolyte through Doping with Co, Y. Jia, Z. Wang, L. Wang, Y. Ma, G. Wang, Y. Lin, X. Hu, K. Zhang ChemSusChem 2019, 12, 3336.

12. Nontopological transformation of hierarchical TiO₂ by self-regulated etching and capping roles of F− for photocatalytic H2 evolution, L Wang, J Liu, Y Min, K Zhang, Applied Surface Science 473, 738-745, 2019

13. Disordered layers on WO₃ nanoparticles enable photochemical generation of hydrogen from water, L Wang, CS Tsang, W Liu, X Zhang, K Zhang, E Ha, WM Kwok, JH Park, Journal of Materials Chemistry A 7 (1), 221-227, 2019

14. Creating multiple parallel internal phase junctions on ZnS nanoparticles as highly active catalytic sites, W Liu, E Ha, L Wang, L Hu, LYS Lee, KY Wong, Advanced Materials Interfaces 5 (18), 1800611, 2018

15. Cu₂ZnSnS₄/MoS₂-Reduced Graphene Oxide Heterostructure: Nanoscale Interfacial Contact and Enhanced Photocatalytic Hydrogen Generation, E Ha, W Liu, L Wang, HW Man, L Hu, SCE Tsang, CTL Chan, WM Kwok, Scientific reports 7, 39411, 2017

16. Tunable Bandgap Energy and Promotion of H₂O₂ Oxidation for Overall Water Splitting from Carbon Nitride Nanowire Bundles, K Zhang, L Wang, X Sheng, M Ma, MS Jung, W Kim, H Lee, JH Park Advanced Energy Materials 6 (11), 1502352 61, 2016

17. Solar-light photocatalytic disinfection using crystalline/amorphous low energy bandgap reduced TiO₂, Y Kim, HM Hwang, L Wang, I Kim, Y Yoon, H Lee Scientific reports 6, 25212, 2016

18. An order/disorder/water junction system for highly efficient co-catalyst-free photocatalytic hydrogen generation, K Zhang, L Wang, JK Kim, M Ma, G Veerappan, CL Lee, K Kong, H Lee, Energy & Environmental Science 9 (2), 499-503, 2016

19. Facile preparation of an n-type reduced graphene oxide field effect transistor at room temperature, L Wang, Y Park, P Cui, S Bak, H Lee, SM Lee, H Lee Chemical Communications 50 (10), 1224-1226, 2014

20. Highly bendable, conductive, and transparent film by an enhanced adhesion of silver nanowires, Y Li, P Cui, L Wang, H Lee, K Lee, H Lee ACS applied materials & interfaces 5 (18), 9155-9160, 2013

21. Dual n-type doped reduced graphene oxide field effect transistors controlled by semiconductor nanocrystals, L Wang, J Lian, P Cui, Y Xu, S Seo, J Lee, Y Chan, H Lee Chemical Communications 48 (34), 4052-4054, 2012

22. Nonvolatile memory device using gold nanoparticles covalently bound to reduced graphene oxide, P Cui, S Seo, J Lee, L Wang, E Lee, M Min, H Lee ACS Nano 5 (9), 6826-6833, 2011

代表专利：

1.石墨烯复合物电极的制备方法, 发明专利, ZL2018110493130, 发明人：王吕阳等,

2.一种回收硫化镉中镉的方法, 发明专利, ZL201811399399X, 发明人：王吕阳等,

3.一种用于催化光降解有机物的三氧化钨的制备方法, 发明专利, ZL2018106148763, 发明人：王吕阳等,

4.Reduced titanium dioxide and preparing method of the same, 美国专利, 专利号：US20160236175 A1, Hyoyoung Lee, Luyang Wang and Youngmin Kim,

5.GO-GD-DTPA COMPLEX, PREPARATION METHOD THEREOF, AND MRI CONTRAST AGENT COMPRISING THE SAME, 美国专利, 专利号：US20130079503 A1, Hyoyoung Lee, Luyang Wang

联系方式：

电子邮箱：wangluyang@sztu.edu.cn

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