个人简历:
伟德国际BETVlCTOR杰出教授、国家科技创新领军人才、英国皇家化学会会士。先后入选国家青年人才、天津市杰出青年基金、天津市“131”创新型人才培养工程第一层次等。主持或参与国家重点专项、国家自然基金、天津基金、企业项目项目等10余项。研究方向为:1、集成智能电路、3D打印和关键催化材料,发展人机共存的空气智慧净化技术;2、依托高通量计算和实验相结合,探索可持续发展的能源材料和器件。以第一或通讯作者在Science等刊物上发表SCI文章约180篇,授权发明专利7项,成果受到了来自美国化学工程杂志(C&EN), 自然(Nature), 福克斯(Fox),光明日报等媒体和杂志的关注和报道。
教育背景
Ø 博士 2008.01-2011.02 美国 德州大学达拉斯分校 材料科学与工程
Ø 访问 2006.06-2007.12 美国 德州大学阿灵顿分校 物理学
Ø 硕士 2002.09-2005.12 中国 中国科学院固体物理研究所学士凝聚态物理
Ø 学士 1998.09-2002.06 中国 河南师范大学 物理学
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工作经历
Ø 教授 2013.07-现在 中国 伟德国际BETVlCTOR
Ø 高级工程师 2012.09-2013.06 美国 万国半导体公司
Ø 客座教授 2012.08-现在 美国 德州大学达拉斯分校材料与工程系
Ø 访问学者 2012.06-2013.06 美国 斯坦福大学电子工程学院
Ø 研究员 2011.06-2012.09 美国 Nanostellar Inc.
员工培养
指导员工获南开十杰、研究生国家奖学金、华为奖学金等奖励。多次获得天津市和伟德国际BETVlCTOR优秀博士学位论文奖励。计划每年招收硕士生2-3名,博士生2名,接收校内外保送生和推免生,欢迎物理、电子、化学、材料、环境等专业的同学报考!欢迎具有嵌入式开发、催化剂成型、电化学、计算化学等专业背景的博士后加盟!长期招聘博士后与科研助手(本科以上学历)。
项目/论文/专利
科研项目:
1. 国家重点研发计划,高稳定非贵金属析氢/析氧电催化剂理性设计与宏量制备,2023/01-2027/12、学术骨干。
2. 国家自然科学基金面上项目,21975136,基于过渡金属莫来石电催化剂的理性设计、2020/01-2023/12、主持。
3. 国家重点研发计划(高功率低成本规模超级电容器的基础科学与前瞻技术研究项目),2016/07-2020/12、学术骨干。
4. 国家自然科学基金面上项目,基于莫来石材料的氮氧污染物净化的催化研究、2015/01-2019/12、主持。
5. 国家自然科学基金青年项目,11304161、III-V族半导体表面和界面的氧化和钝化研究、2014/01-2016/12、主持。
6. 天津市自然科学基金面上项目、13JCYBJC41100、半导体异质结在光催化应用中的研究、2013/10-2016/09、主持。
7. 伟德国际BETVlCTOR百名青年学科带头人,2013-2016,主持。
8. 2017年入选天津市首届杰出青年基金, 基于锰基材料的大气脱硝催化剂的理性设计研究,17JCJQJC45100, 主持。
9. 2018年入选天津市131人才计划第一层次人选,2019/01-2020/12,主持。
10. 2018年天津市重点研发计划,满足移动源柴油机国VI标准排放后处理装置研发与应用,子课题,2019/01-2020/12。
科研论文:
1. Weichao Wang; Geoffrey McCool; Neeti Kapur; Guang Yuan; Bin Shan; Matt Nguyen; Uschi M. Graham; Burtron H. Davis; Gary Jacobs; Kyeongjae Cho; Xianghong (Kelly) Hao ; Mixed-Phase Oxide Catalyst Based on Mn-Mullite (Sm, Gd)Mn2O5 for NO Oxidation in Diesel Exhaust, Science, 2012, 337: 832-835 (影响因子:47.73) ;
2. Li Wang; Wuxing Hua; Xiang Wan; Ze Feng; Zhonghao Hu; Huan Li; Juntao Niu; Linxia Wang; Ansheng Wang; Jieyu Liu; Xiuyao Lang; Geng Wang; Weifang Li; Quanhong Yang; Weichao Wang ; Design Rules of a Sulfur Redox Electrocatalyst for Lithium‐sulfur Batteries, Advanced Materials, 2022, Early View: 2110279(1-12) (影响因子:30.85) ;
3. Chunning Zhao; Xilin Zhang; Meng Yu; Ansheng Wang; Linxia Wang; Lina Xue; Jieyu Liu; Zongxian Yang; Weichao Wang ; Cooperative Catalysis toward Oxygen Reduction Reaction under Dual Coordination Environments on Intrinsic AMnO3-Type Perovskites via Regulating Stacking Configurations of Coordination Units, Advanced Materials, 2020, 32(50): 2006145(1-10) (影响因子:30.85) ;
4. Jingfang Zhang; Jieyu Liu; Lifei Xi; Yifu Yu; Ning Chen; Shuhui Sun; Weichao Wang; Kathrin M. Lange; Bin Zhang ; Single-Atom Au/NiFe Layered Double Hydroxide Electrocatalyst: Probing the Origin of Activity for Oxygen Evolution Reaction, Journal of the American Chemical Society, 2018, 11(140): 3876-3879(影响因子:15.42);
5. Zhiwen Gao; Jieyu Liu; Xuemin Chen; Jing Mao; Hui Liu; Tian Ma; Lan Li; Weichao Wang; Xiwen Du ; Engineering NiO/NiFe LDH Intersection to Bypass Scaling Relationship for Oxygen Evolution Reaction via Dynamic Tridimensional Adsorption of Intermediates, Advanced Materials, 2019, 31(11): 1804769(1-8) (影响因子:30.85);
6. Anqi Dong; Shan Gao; Xiang Wan; Linxia Wang; Tong Zhang; Li Wang; Xiuyao Lang; Weichao Wang ; Labile Oxygen Promotion of the Catalytic Oxidation of Acetone over a Robust Ternary Mn-based Mullite GdMn2O5, Applied Catalysis B: Environmental, 2020, 271: 118932(1-10) (影响因子:19.50);
7. Tong Zhang; Xiuyao Lang; Anqi Dong; Xiang Wan; Shan Gao; Li Wang; Lixia Wang; Weichao Wang ; Difference of Oxidation Mechanism between Light C3–C4 Alkane and Alkene over Mullite YMn2O5 Oxides Catalyst, ACS Catalysis, 2020, 10(13): 7269-7282(影响因子:13.08);
8. Tong Zhang; Hui Li; Zhi Yang; Fengren Cao; Liang Li; Haijun Chen; Hui Liu; Ka Xiong; Jie Wu; Zhanglian Hong; Weichao ; Electrospun YMn2O5 Nanofibers: A Highly Catalytic Activity for NO Oxidation, Applied Catalysis B: Environmental, 2019, 247: 133-141 (影响因子:19.50) ;
9. Xuerui Wang; Jieyu Liu; Ziwei Liu; Weichao Wang; Jun Luo; Xiaopeng Han; Xiwen Du; Shizhang Qiao; Jing Yang ; Identifying the Key Role of Pyridinic-N-Co Bonding in Synergistic Electrocatalysis for Reversible ORR/OER, Advanced Materials, 2018, 30(23): 1800005(1-10) (影响因子:30.85);
10. Li Wang; Hui Li; Jieyu Liu; Xiuyao Lang; Weichao Wang ; Labile Oxygen Participant Adsorbate Evolving Mechanism to Enhance Oxygen Reduction in SmMn2O5 with Double-coordinated Crystal Fields, Journal of Materials Chemistry A, 2020, 9(1): 380-389 (影响因子:12.73);
11. Gaixia Zhang; David Sebastian; Xilin Zhang; Qiliang Wei; Carmelo Lo Vecchio; Jihai Zhang; Vincenzo Baglio; Weichao Wang; Shuhui Sun; Antonino S. Arico; Ana C. Tavares ; Engineering of a Low-Cost, Highly Active, and Durable Tantalate-Graphene Hybrid Electrocatalyst for Oxygen Reduction, Advanced Energy Materials, 2020, 10(24): 2000075(1-11) (影响因子:29.37);
12. Chunning Zhao; Meng Yu; Zhi Yang; Jieyu Liu; Shaohua Chen; Zhanglian Hong; Haijun Chen; Weichao Wang ; Oxygen Reduction Reaction Catalytic Activity Enhancement over Mullite SmMn2O5 via Interfacing with Perovskite Oxides, Nano Energy, 2018, 51: 91-101 (影响因子:17.88);
13. Jieyu Liu; Hui Liu; Haijun Chen; Xiwen Du; Bing Zhang; Zhanglian Hong; Shuhui Sun; Weichao Wang ; Progress and Challenges Toward the Rational Design of Oxygen Electrocatalysts Based on a Descriptor Approach, Advanced Science, 2020, 7(1): 1901614(1-15) (影响因子:12.73);
14. Lijing Wang; Xiaolong Yao; Da Chen; Jin Wang; Zhenzhou Zhang; Jieyu Liu; Tianquan Lin; Wei-hua Wang; Zhanglian Hong; Fuqiang Huang; Weichao Wang ; Design Rules of Pseudocapacitive Electrode Materials: Ion Adsorption, Diffusion, and Electron Transmission over Prototype TiO2, Science China-Materials, 2021, 65: 391-399(影响因子:8.3);
15. Dali Liu; Changhong Wang; Yihu Yu; Bohang Zhao; Weichao Wang; Yonghua Du; Bing Zhang ; Understanding the Nature of Ammonia Treatment to Synthesize Oxygen Vacancy-Enriched Transition Metal Oxides, Chem, 2019, 5(2): 376-389 (影响因子:22);
16. Y. Li, X. Zhang, H. Li, H. Yoo, X. Chi, Q. An, J. Liu, M.Yu, W. Wang*, Y.Yao*, Mixed-phase Mullite Electrocatalyst for pH-neutral Oxygen Reduction in Magnesium-air Batteries, Nano Energy, 27, 8 (2016) (影响因子:17.88);
17. Z. Wu, C. Wang, B. Zhao, J. Dong, F. Lu, W.H Wang, W. Wang, G. Wu, J. Cui, A Novel Semi-Conductive Cu-Organic Framework with Two Types of Photcatalytic Activity, Angew. Chem. Int. Edit. , 127, 1(2015) (影响因子:15.33);
18. Fan Yu, Lei Du, Gaixia Zhang, Fengmei Su, Weichao Wang, and Shuhui Sun, Electrode Engineering by Atomic Layer Deposition for Sodium-Ion Batteries: From Traditional to Advanced Batteries, Adv. Funct. Mater.,1906890 (2019) (影响因子:16.8);
19. Lulu Wen, Xilin Zhang, Jieyu Liu, Xinyang Li, Changchang Xing, Xianjun Lyu, Weiping Cai, Weichao Wang, and Yue Li, Cr-Dopant Induced Breaking of Scaling Relations in CoFe Layered Double Hydroxides for Improvement of Oxygen Evolution Reaction, Small, 1902373 (2019) (影响因子:13.2);
20. Chenlong Dong, Xilin Zhang, Jie Xu, Rui Si, Jun Sheng, Jun Luo, Shaoning Zhang, Wujie Dong, Guobao Li, Weichao Wang, Fuqiang Huang, Ruthenium‐Doped Cobalt–Chromium Layered Double Hydroxides for Enhancing Oxygen Evolution through Regulating Charge Transfer, Small, 16, 5 (2020) (影响因子:13.2).
讲授课程:
本科生:《固体半导体物理》、《创新研究与训练》