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张伟

发布日期:2017-10-18 作者: 编辑: 点击:

基本情况

12D4B姓名:张伟

性别:男

职称:教授

是否博导:是

最高学历:研究生

最高学位:博士

手机:18686691870

Email:

备注:长春市前进大街2699号吉林大学中心校区电子显微镜中心


详细情况
所在学科专业: 材料物理与化学
所研究方向:

关注电化学能源存储/转换(超级电容器Supercapacitor、锂离子电池LIB、双离子电池DIB、氧还原ORR/氢析出HER等)和异相催化材料的表/界面的化学和物理调控、及与性能的构效关系;先进材料的电子显微(球差校正)分析。

欢迎具有材料、化学、物理等背景的同学报考课题组的博士、硕士研究生!
讲授课程: 材料科学测试方法(本科生)
材料现代研究方法(研究生)
教育经历: 1997年,天津大学,学士
2000/2004年,中国科学院金属研究所/研究生院,硕士/博士,导师李斗星研究员,隋曼龄教授
科研经历: 承担国家自然科学委面上项目、重点项目子项、吉林省科技发展项目、省校共建项目、吉林大学等多个项目,合同经费300余万元。
工作经历:

作为学术带头人引进人才来吉林大学工作前,先后在日本国立材料研究所、韩国三星综合技术研究院、德国Fritz-Haber研究所、丹麦技术大学、西班牙能源协作研究中心从事合作和独立的科学研究。。

学术论文:

在Nature Comm、Angew Chem Int Ed(3)、Adv Energy Mater(3)、Adv Func Mater(2)、Adv Sci、ACS Central Sci、Energy Storage Mater、Small、J Mater Chem A等国际SCI学术期刊上发表论文200余篇,ESI高被引用论文11篇,SCI引用超过5000次。30篇学术论文被选作国际学术期刊封面系列。

应邀在The 3rd International Conference on Energy Storage Materials、中国化学会第3届中国(国际)能源材料化学研讨会、第2届能源与环境催化会议等多个国际国内学术会议上做主旨或邀请报告。

近年发表的部分学术论文:

1. T. Deng, W. Zhang*, O. Arcelus, J.-G. Kim, J. Carrasco, S. J. Yoo, W. Zheng*, J. Wang, H. Tian, H. Zhang, X. Cui, T. f. Rojo, Atomic-level energy storage mechanism of cobalt hydroxide electrode for pseudocapacitors. Nature Communication 8, 15194 (2017).(IF 11.878、ESI1%、Highlighted by the Nobel Laureate John B. Goodenough in Chem,2017)

2. T. Deng, Y. Lu, W. Zhang*, M. Sui, X. Shi, D. Wang, W. Zheng*, Inverted Design for High-Performance Supercapacitor Via Co(OH)2-Derived Highly Oriented MOF Electrodes. Advanced Energy Materials 8, 1702294 (2018).(IF 24.884、ESI1%)

3. D. Wang, W. Zhang*, W. Zheng*, X. Cui, T. Rojo, Q. Zhang*, Towards High-Safe Lithium Metal Anodes: Suppressing Lithium Dendrites via Tuning Surface Energy. Advanced science 4, 1600168 (2017).(Hottest Paper in Modelling & Simulations, IF 15.804、ESI1%)

4. M. Lu, W. Han, H. Li, W. Shi, J. Wang, B. Zhang,* Y. Zhou, H. Li, W. Zhang,* W. Zheng*,

Tent-pitching-inspired high-valence period 3-cation pre-intercalation excels for anode of 2D titanium carbide (MXene) with high Li storage capacity. Energy Storage Materials 16, 163-168 (2019). (CiteScore: 15.09、ESI 1%)

5. X. Shi, W. Zhang*, J. Wang, W. Zheng*, K. Huang, H. Zhang, S. Feng, H. Chen, (EMIm)+(PF6)− Ionic Liquid Unlocks Optimum Energy/Power Density for Architecture of Nanocarbon‐Based Dual‐Ion Battery. Advanced Energy Materials  6, 1601378 (2016).(IF 24.884)

6. D. Wang, C. Luan, W. Zhang*, X. Liu, L. Sun, Q. Liang, T. Qin, Z. Zhao, Y. Zhou, P. Wang, W. Zheng*, Zipper-Inspired SEI Film for Remarkably Enhancing the Stability of Li Metal Anode via Nucleation Barriers Controlled Weaving of Lithium Pits. Advanced Energy Materials  8, 1800650 (2018). (IF 24.884)

7. D. Wang, W. Zhang*, N. E. Drewett, X. Liu, S. J. Yoo, S.-G. Lee, J.-G. Kim, T. Deng, X. Zhang, X. Shi, W. Zheng*, Exploiting Anti-T-shaped Graphene Architecture to Form Low Tortuosity, Sieve-like Interfaces for High-Performance Anodes for Li-Based Cells.ACS Central Science 4, 81-88 (2018).(IF 12.837)

8. W. Zhang*, W. Zheng*, Single Atom Excels as the Smallest Functional Material. Advanced Functional Materials 26, 2988-2993 (2016).(IF 15.621,Feature Article)

9. X. Zhang, Q. Zeng, Y. Xiong, T. Ji, C. Wang, X. Shen, M. Lu, H. Wang, S. Wen, Y. Zhang, X. Yang, X. Ge, W. Zhang,* A. P. Litvin, A. V. Baranov, D. Yao, H. Zhang, B. Yang, A. L. Rogach,* W. Zheng,*

Energy Level Modification with Carbon Dot Interlayers Enables Efficient Perovskite Solar Cells and Quantum Dot Based Light-Emitting Diodes.  Advanced Functional Materials 30, 1910530 (2020).(IF 15.621)

10. L. Wang, L. Wang*, J. Zhang, X. Liu, H. Wang, W. Zhang,* Q. Yang, J. Ma, X. Dong, S. J. Yoo, J. G. Kim, X. Meng, F. S. Xiao*,Selective Hydrogenation of CO2 to Ethanol over Cobalt Catalysts. Angewandte Chemie International Edition 57, 6104-6108(2018).(IF 12.257)

11. Y. Niu, X. Liu, Y. Wang, S. Zhou, Z. Lv, L. Zhang, W. Shi, Y. Li, W. Zhang,* D. S. Su*, B. Zhang*, Visualizing Formation of Intermetallic PdZn in a Palladium/Zinc Oxide Catalyst: Interfacial Fertilization by PdHx. Angewandte Chemie International Edition 58, 4232-4237 (2019).(IF 12.257)

12. K. Mou, Z. Chen, X. Zhang, M. Jiao, X. Zhang, X. Ge, W. Zhang,* L. Liu*, Highly efficient electroreduction of co2 on nickel single-atom catalysts: Atom trapping and nitrogen anchoring. Small 15, 1903668(2019).(IF 10.856)

13. L. Dai, O. Arcelus, L. Sun, H. Wang, J. Carrasco, H. Zhang, W. Zhang,* J. Tang *, Embedded 3d Li+ channels in a water-in-salt electrolyte to develop flexible supercapacitors and lithium-ion batteries. Journal of Materials Chemistry A 7, 24800-24806(2019).(IF 10.733)

14. T. Deng, W. Zhang*, O. Arcelus, D. Wang, X. Shi, X. Zhang, J. Carrasco*, T. Rojo, W. Zheng*, Vertically co-oriented two dimensional metal-organic frameworks for packaging enhanced supercapacitive performance. Communications Chemistry 1, 6 (2018).(Inaugural首次期刊映像)

15. W. Zhang*, D. Wang*, W. Zheng*, A semiconductor-electrochemistry model for design of high-rate Li ion battery. Journal of Energy Chemistry 41, 100-106 (2020).(Perspective)

16. W. Zhang*, W. Zheng*, Transmission electron microscopy finds plenty of room on the surface. Physical Chemistry Chemical Physics 17, 14461-14469 (2015).(Perspective)

17.  C. Zhang, W. Zhang*, N. E. Drewett, X. Wang, S.J. Yoo, H. Wang, T. Deng, J.G. Kim, H. Chen, K.K. Huang, S.H. Feng, W. Zheng*, Integrating catalysis of methane decomposition and electrocatalytic hydrogen evolution with Ni/CeO2 for improved hydrogen production efficiency. ChemSusChem 12, 1000-1010 (2019).

18. C. Zhang, S. Yu, Y. Xie, W. Zhang*, K. Zheng, N. E. Drewett, S. J. Yoo, Z. Wang, L. Shao*, H. Tian, J. Kim, W. Zheng*, Suppressing the Pd-C interaction through B-doping for highly efficient oxygen reduction. Carbon 149, 370-379 (2019).

19. T. Qin, X. Chu, T. Deng, B. Wang, X. Zhang, T. Dong, Z. Li, X. Fan, X. Ge, Z. Wang, P. Wang, W. Zhang*, W. Zheng*, Reinventing the mechanism of high-performance Bi anode in aqueous K+ rechargeable batteries. Journal of Energy Chemistry 48, 21-28 (2020).

20. T. Qin, X. Zhang, D. Wang, T. Deng, H. Wang, X.F. Liu, X. Shi, Z. Li, H. Chen, X. Meng, W. Zhang*, W. Zheng*, Oxygen vacancies boost d-Bi2O3 as a high-performance electrode for rechargeable aqueous batteries. ACS Applied Materials & Interfaces 11, 2103-2111 (2019).

21. X. Chu, F. Meng, T. Deng, Y. Lu, O. Bondarchuk, M. Sui, M. Feng, H. Li, W. Zhang*, Mechanistic insight into bimetallic CoNi-MOF arrays with enhanced performance for supercapacitors. Nanoscale 399, 5669-5677 (2020).

22. H. Wang, D. Wang, T. Deng, X. Zhang, C. Zhang, T. Qin, D. Cheng, Q. Zhao, Y. Xie, L. Shao*, H. Zhang, W. Zhang*, W. Zheng*, Insight into graphene/hydroxide compositing mechanism for remarkably enhanced capacity. Journal of Power Sources 399, 238-245 (2018).

23. L. Wang, H. Wang*, A.E. Rice, W. Zhang*, X. Li, M.S. Chen, X.J. Meng, J.P. Lewis, F.S. Xiao*, Design and Preparation of Supported Au Catalystwith Enhanced Catalytic Activities by RationallyPositioning Au Nanoparticles on Anatase. Journal of Physical Chemistry Letters 6, 2345-2339 (2018).

24. S. Sanna, V. Esposito, J. Andreasen, J. Hjelm, W. Zhang, T. Kasama, S. Simonsen, M. Christensen, S.Linderoth, N. Pryds*. Enhancement of the chemical stability in confined δ-Bi2O3. Nature Materials 14, 500-504 (2015).

25. W. Zhang, A. Trunschke, R. Schlögl, D.S. Su*, Real-space Observation of Surface Termination of A Compl ex Metal Oxide Catalyst. Angewandte Chemie International Edition 49, 6084-6089 (2010).


研究亮点:
社会兼职:

中国物理学会表面与界面物理专业委员会委员。

吉林省电子显微学会副理事长。

Nanotechnology (IF:3.399, IOPscience)咨询委员会委员

Nature CatalysisAngew Chem Int EdJ Am Chem SocAdv MaterAdv Energy MaterACS NanoACS CatalyChem MaterEnergy Storage MaterialsNano EnergyJ Mater Chem A等60余种国际学术期刊的审稿专家。


 

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