教学科研人员

张炜

发布时间:2023-10-13编辑:浏览次数:306

张炜

沪江博士后

研究方向:过渡金属材料,电催化,氢能,锂硫电池

邮箱:weizhang@usst.edu.cn

张炜于20239月获得KU Leuven (比利时荷语鲁汶大学) 材料工程系的博士学位。他目前的主要研究方向是1利用金属有机框架化合物为前驱体,合成不同过渡金属化合物,并研究其在电催化方面的应用;2金属有机框架材料在锂硫电池隔膜和正极中的应用。他至今已经发表SCI论文超过56篇,其中以第一作者或者通讯作者身份,在国际知名期刊如Advanced Energy Materials, Small, Chemical Engineering Journal, Journal of Materials Science & Technology, ACS Applied Materials & Interfaces等上发表了超过21篇论文,并且这些论文已经被Web of Science引用超过1,479次,其h指数为23

 

教育工作经历

Ø  2018.09-2023.09,博士,KU Leuven (荷语鲁汶大学)

Ø  2024,01-至今,沪江博后,上海理工大学

 

荣誉奖励

Ø  2022Travel fellowship award for international conference granted by the Research Foundation-Flanders

Ø  2018公派留学奖学金 (China Scholarship Council)

Ø  2016上海优秀毕业生

Ø  2014-2015获得两次硕士研究生国家奖学金

Ø  2013-2014年、2014-2015年和2015-2016年分别获得研究生学业一等奖学金

Ø  2014获第二十六届上海市优秀发明选拔赛优秀发明银奖

Ø  2013获第十三届挑战杯上海市大学生课外学术科技作品竞赛二等奖

 

代表性论著

Ø  Zhang, W., Pan H., Han, N., Zhang, X., Feng, S., Guo, W., Tan, P., Xie, S., Zhou, Z., Ma, Q., Guo, X., Vlad, A., Luo, J. and Fransaer, J., Balancing adsorption, catalysis and desorption in cathode catalyst for Li-S batteries. (2023). Advanced Energy Materials, 2023, 2301551. IF=29.698

Ø  Zhang, W., Han, N., Luo, J., Han, X., Feng, S., Guo, W., Xie, S., Zhou, Z., Subramanian, P., Wan, K., Arbiol, J., Zhang, C., Liu, S., Xu, M., Zhang, X. and Fransaer, J. (2022). Critical Role of Phosphorus in Hollow Structures Cobalt-Based Phosphides as Bifunctional Catalysts for Water Splitting. Small, 18(4), 2103561. IF=15.153

Ø  Zhang, W., Luo, J., Zhang, X., Guo, W., Han, N., Xie, S., Zhou, Z., Answer, Z., Xue, Z., and Fransaer, J. (2023), Metal-organic framework-derived CoP2@ N-doped carbon hollow spheres for efficient oxygen evolution reaction. Journal of Materials Science & Technology, 164, 240-245. IF=10.9

Ø  Chai, J., Han, N., Feng, S., Huang, X., Tang, B.*, and Zhang, W.* (2022). Insights on Titanium-Based chalcogenides TiX2 (X= O, S, Se) as LIBs/SIBs Anode Materials. Chemical Engineering Journal, 139768. (Corresponding Author) IF=15.1

Ø  Jiang, L., Liang, F., Zhang, Z., Wu, D., Chai, J., Luo, T., Han, N., Zhang, W.*, Rui, Y.* and Tang, B.* (2023). A novel cobalt chloride hydrate modified Co-MOF derived carbon microspheres as anode materials for lithium ion batteries. Chemical Engineering Journal, 433, 133568. (Corresponding Author) IF=15.1

Ø  Cao, Y., Zhang, W., Sun, Y., Jiang, Y., Han, N., Zou, J., Si, W., Wang, F., Nunez-Delgado, A. and Liu, S. (2021). Highly active iron-nitrogen-boron-carbon bifunctional electrocatalytic platform for hydrogen peroxide sensing and oxygen reduction. Environmental Research, 201, 111563. (Co-first Author) IF=8.3

Ø  Chai, J., Wang, K., Li, Q., Du, J., Jiang, L., Han, N., Zhang, W.*, and Tang, B.* and Rui, Y.* (2022). Highly dispersed CuO nanoparticle on ZIF-4 framework as anode material for LIBs. Journal of Alloys and Compounds, 914, 165316. (Corresponding Author) IF=6.4

Ø  Du, J., Chai, J., Li, Q., Zhang, W.*, and Tang, B.* (2022). Application of two-dimensional layered Mo-MOF@ ppy with high valency molybdenum in lithium-ion batteries. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 632, 127810. (Corresponding Author) IF=5.2

Ø  Ge, Z., Jiang, L., Liang, F., Zhang, Z., Wu, D., Ye, W., Han, N., Rui. Y.*, Zhang, W.*, and Tang, B.* (2022). Nitrogen-Doped Porous Ag–C@Co3O4 Nanocomposite for Boosting Lithium Ion Batteries. Energy & Fuels, 36(5), 2861-2871. (Corresponding Author) IF=4.7

Ø  Liang, F., Jiang, L., Zhang, Z., Wu, D., Li, X., Han, N., Rui. Y.*, Zhang, W.*, and Tang, B. * (2022). Cobalt-doped TaOCl3 nanoparticles/carbon compounds with advanced specific capacity for lithium-ion batteries. Journal of Alloys and Compounds, 897, 163193. (Corresponding Author) IF=6.4

Ø  Liang, F., Wu, D., Jiang, L., Zhang, Z., Zhang, W.*, Rui, Y.*, Tang, B.* and Liu, F.* (2021). Layered niobium oxide hydrate anode with excellent performance for lithium-ion batteries. ACS Applied Materials & Interfaces, 13(43), 51057-51065. (Corresponding Author) IF=9.5

Ø  Chai, J., Du, J., Li, Q., Han, N., Zhang, W.*, and Tang, B.* (2021). Recent Breakthroughs in the Bottleneck of Cathode Materials for Li–S Batteries. Energy & Fuels, 35(19), 15455-15471. (Corresponding Author) Energy & Fuels, 36(5), 2861-2871. (Corresponding Author) IF=4.7

Ø  Zhang W, Du X, Tan Y, et al. (2017). Amorphous cobalt boron alloy@ graphene oxide nanocomposites for pseudocapacitor applications. Journal of Materials Science & Technology, 33(5), 438-443. IF=10.9

Ø  Zhang W, Du X, Tan Y et al. (2016). A Facile Synthesis of SO42-/SnO2 Solid Superacid Nanoparticles as Anode Materials for Lithium-Ion Batteries. Electrochemistry Communications, 62, 9-12. IF=5.4

Ø  Zhang W, Tan Y, Gao Y, et al. (2015). In2O3 Nanoparticles on Three-Dimensionally Ordered Macroporous (3DOM) Carbon for Pseudocapacitor Electrodes. Electrochimica Acta, 176, 861-867. IF=6.6

Ø  Zhang W, Tan Y, Gao Y, et al. (2015). Ultrafine nano zirconia as electrochemical pseudocapacitor material. Ceramics International, 41(2), 2626-2630. JIF Q1IF=5.2

 

其他成果

Ø  张漩; 张炜; 姜银珠; 一种高效水分解催化剂空心磷化钴及其制备方法, 2023-5-21, 中国, CN2021111584463 (专利)

Ø  唐博合金; 张炜; 高艺茏; 吴建祥; 谭月月; 门勇; 杨锡铎; 郑新萌; 聚烯烃提纯用脱色吸附剂及其制备方法, 2015-5-6, 中国, CN201310530035.1A (专利)


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