王鑫,博士,郑州大学化学学院副教授、硕士生导师。2018年毕业于北京大学化学与分子工程学院无机化学专业,师从黄富强教授(杰青)。2018年入职郑州大学,入选郑州大学青年拔尖人才。近年来,在Mater. Today,Appl. Catal. B-Environ.,Chem. Mater.,J. Mater. Chem. A,J. Energy Chem.,Adv. Mater.等国际权威期刊发表SCI论文50余篇,总引用为1900余次,h因子为21,获批发明专利2项。其中以第一作者(含共一)和通讯作者发表SCI论文27篇,1篇被选为封面文章,2篇入选ESI高被引文章。
联系方式:
通讯地址:河南省郑州市高新区科学大道100号郑州大学化学实验中心209
邮箱:wangxin0620@zzu.edu.cn
学习经历:
2013年9月–2018年7月,就读于北京大学化学与分子工程学院,理学博士
2009年9月– 2013年7月,就读于华中科技大学化学化工学院,理学学士
2011年9月– 2013年7月,就读于华中科技大学外国语学院,文学学士
工作经历:
2018年7月–至今,郑州大学化学与分子工程学院,直聘副教授
2021年3月–至今,国家自然科学基金委员会,流动编制主管
研究方向:
高熵化学,新能源储存与转化材料及其器件化,包括锂离子电池、电化学电容器、电催化氧还原和产氢(燃料电池)、电催化产氧(金属空气电池)、CO2热催化与电催化。
主持项目:
1.中国博士后科学基金会,一等面上资助,2019M650173,哈斯勒合金基复合催化剂在电催化还原二氧化碳中的研究,2020-01至2021-12, 12万元,结题,主持;
2.河南省博士后管理委员会,河南省博士后科研项目二等资助,多元合金基纳米复合材料的制备以及在CO2电催化还原中的应用,2020-01至2021-12, 8万元,结题,主持;
3.河南省自然科学基金委员会,青年项目,多元合金基纳米复合材料的制备以及在CO2电催化还原中的应用,2020-01至2021-12, 5万元,在研,主持;
4.郑州大学拔尖博士启动基金,铁基合金复合催化剂的制备及其高效电催化还原CO2的研究,2019-8至2020-12, 20万元,结题,主持;
代表论文:
[1] Huarong Fan#, Yubing Si#, Yiming Zhang, Fulong Zhu,Xin Wang*, Yongzhu Fu*, Grapevine-like high entropy oxide composites boost high performance lithium sulfur batteries as bifunctional interlayers,Green Energy & Environment,2022, just accepted. (IF=12.781)
[2] Shuyi Kong,† Ximeng Lv,† Xin Wang, Zhengzheng Liu, Zichuang Li, Bingquan Jia, Du Sun, Chao Yang, Lijia Liu, Anxiang Guan, Jiacheng Wang,* Gengfeng Zheng,* Fuqiang Huang*, Delocalization state-induced selective bond breaking for efficient methanol electrosynthesis from CO2,Nature Catalysis, 2022, just accepted. (IF= 40.706)
[3]Xin Wang#, Ximeng Lv#, Gengfeng Zheng*, Yongzhu Fu*,Room-temperatureelectrochemical C1-to-fuelconversion: Perspectives frommaterialengineering anddevicedesign,EnergyChem, 2022, 4, 100086.
[4] Ming Miao, Haotian Duan, Jiayao Luo and Xin Wang*, Recent progress and prospect of electrodeposition-type catalysts in carbon dioxide reduction utilizations. Mater. Adv., 2022, DOI: 10.1039/D2MA00775D.
[5] Qing-Xu Wang, Zhong-Cheng Guo, Yin Qin,Xin Wang,* and Gang Li*, High proton conduction in three highly water-stable hydrogen-bonded ferrocene-based phenyl carboxylate frameworks,Inorganic Chemistry,2021, 60, 24, 19278–19286. (IF= 5.165)
[6] Wang, X.,#,* Li, F.,# Yin, W.,# Si, Y., Miao, M., Wang, X., Fu, Y.*, Atomically dispersed Sn modified with trace sulfur species derived from organosulfide complex for electroreduction of CO2, Applied Catalysis B: Environmental 304 (2022) 120936.(IF=19.502)
[7] Wang, X.#, Li, X.#, Fan, H., Miao, M., Zhang, Y., Guo, W., Fu, Y.*, Advances of entropy-stabilized homologous compounds for electrochemical energy storage, Journal of Energy Chemistry 2022, 67, 276–289.(IF=9.676)
[8] Fang, Y.,# Wang, S.,# Zhang, X.# Lin, G., Zhao, W., Wang, X.,* Wang, W.,* Huang, F.*, Realizing the excellent HER performance of Pt3Pb2S2 by d-orbital electronic modulation, Inorganic Chemistry 2021, 60, 21, 16538-16543. (IF=5.165)
[9] Wang, X.#, Peng, Q.#, Zhang, X., Lv, X., Wang, X.*, Fu, Y.*, Carbonaceous-assisted confinement synthesis of refractory high-entropy alloy nanocomposites and their application for seawater electrolysis, Journal of Colloid and Interface Science 2022, 607, 1580–1588.(IF=8.128)
[10]曾升#,李进#,王鑫*,付永柱*, 中国氢能利用技术进展及前景展望, 电源技术 Chinese Journal of Power Sources,2022, 46, 716-722.
[11] Zhang, Y.#, Si, Y.#, Guo, W., Li, X., Tang, S., Zhang, Z., Wang, X.,* Fu, Y.*, In situ synthesis of vacancy-rich titanium sulfide confined in a hollow carbon nanocage as an efficient sulfur host for lithium−sulfur batteries. ACS Applied Energy Materials 2021, 4, 10104−10113.(IF=6.024)
[12] Fang, Y.# Wang, S.# Lin, G., Wang, X.,* Huang, F.*, A new compound Pt3Bi2S2 with superior performance for hydrogen evolution reaction, Chemical Communications, 2021, 57, 7946-7949. (IF=6.222)
[13] Wang, X.#, Tang, S.#, Guo, W., Fu, Y.*, Manthiram, A.*, Advances in multimetallic alloy-based anodes for alkali-ion and alkali-metal batteries, Materials Today 2021, 50, 259-275.(IF=31.041)
[14] Wang, X.,# Wang, D.,# Yin, W.-J.,# Si, Y. B., Bu, K. J., Wang, S. S., Zhao, W., Huang, F. Q., * Modulation the electronic structure of IrSe2 by filling the Bi atom as a bifunctional electrocatalyst for pH universal water splitting, Advanced Energy & Sustainability Research, 2021, 2, 2000074.
[15] Wang, X., Guo, W, Fu, Y. Z.,* High-entropy alloys: emerging materials for advanced functional applications, Journal of Materials Chemistry A, 2021, 9, 663-701. (Hot Paper and Cover Paper)(IF=12.732)
[16] Wang, X.,# Yin, W.-J.,# Si, Y. B., Wang, X. M., Guo, X. X., Guo, W., and Fu, Y. Z.* Conversion of CO2 to chemical feedstocks over bismuth nanosheets in situ grown on nitrogen-doped carbon, Journal of Materials Chemistry A, 2020, 8, 19938-19945. (IF=12.732)
[17] Yang, L. Y., Sun, Z. Y., Huang, L., Wang, X.,* Li, C. H., Electroreduction of CO2 by Ni sites on nitrogen-doped carbon aerogels from glucose, Micro & Nano Letters, 2020, 15, 399-402.
[18] Huang, C.,# Wang, X.,# Wang, D.,# Zhao, W.,* Bu, K. J., Xu, J. J., Huang, X. Y., Bi, Q. Y., Huang, J.,* Huang, F. Q.,* Atomic pillar effect in PdxNbS2 to boost basal plane activity for stable hydrogen evolution, Chemistry of Materials 2019, 31, 13, 4726-4731. (IF=10.159)
[19] Yuan, X. T.,# Wang, X.,#, Riaz, M. S., Dong, C. L., Zhang, Z. and Huang, F. Q.* Efficient catalyst for oxygen evolution derived from cobalt based alloy nanochains. Catalysis Science & Technology 2018, 8, 2427-2433. (IF=6.119)
[20] Wang, X.,# Hu, Z. Q.,# Dong, C. L., Dong, W. J., Riaz, M. S., Lin, T. Q.,* Shi, Z. J. and Huang, F. Q.* Observation of high capacitance from molecular Gd@C82 in aqueous electrolyte derived from energy-level matching with proton. Advanced Materials Interfaces 2018, 1800240. (IF=6.147)
[21] Wang, X.,# Yuan, X. T.,# Wang, D., Dong, W. J., Dong C. L., Zhang, Y. J., Lin, T. Q.* and Huang, F. Q.* Tunable synthesis of colorful nitrogen-doped titanium oxide and its application in energy storage. ACS Applied Energy Materials 2018, 1, 876-882. (IF=6.024)
[22] Wang, D.,# Wang, X.,# Lu, Y.,# Song, C. S., Pan, J., Li, C. L., Sui, M. L,* Zhao W.* and Huang, F. Q.,* Atom-scale dispersed palladium in conductive Pd0.1TaS2 lattice with unique electronic structure for efficient hydrogen evolution. Journal of Materials Chemistry A, 2017, 5, 22618-22624.(IF=12.732)
[23] Bi, Q. Y.,# Wang, X.,# Gu, F., Du, X. L., Bao, H. L., Yin, G. H., Liu, J. J. and Huang F. Q.* Prominent electron penetration through ultrathin graphene layer from FeNi alloy for efficient reduction of CO2 to CO. ChemSusChem 2017, 10, 3044-3048.(IF=8.928)
[24] Wang, X., Dong C. L., Lou, M. H., Dong, W. J., Yuan, X. T., Tang, Y. F.* and Huang, F. Q.* Tunable synthesis of Fe-Ge alloy confined in oxide matrix and its application for energy storage. Journal of Power Sources 2017, 360, 124-128.(IF=9.127)
[25] Wang, X., Lou, M. H., Yuan, X. T., Dong, W. J., Dong, C. L., Bi, H.* and Huang, F. Q.* Nitrogen and oxygen dual-doped carbon nanohorn for electrochemical capacitors. Carbon 2017, 118, 511-516.(IF=9.594)
[26] Wang, X.,# Yuan, X. T.,# Liu, X. Y., Dong, W. J., Dong, C. L., Lou, M. H., Li, J. C., Lin, T. Q.* and Huang, F. Q.* Monodisperse Pt nanoparticles anchored on N-doped black TiO2 as high performance bifunctional electrocatalyst. Journal of Alloys and Compounds 2017, 701, 669-675.(IF=5.316)
[27] Yuan, X. T.,# Wang, X., # Liu, X. Y., Ge, H. X., Yin, G. H., Dong, C. L. and Huang, F. Q.* Ti3+-promoted high oxygen-reduction activity of Pd nanodots supported by black titania nanobelts. ACS Applied Materials & Interfaces 2016, 8, 27654-27660.(IF=9.229)
[28] Wang, X., Liu, X. Y., Tong, C. J., Yuan, X. T., Dong, W. J., Lin, T. Q.,* Liu, L. M.* and Huang, F. Q.* An electron injection promoted highly efficient electrocatalyst of FeNi3@GR@Fe-NiOOH for oxygen evolution and rechargeable metal-air batteries. Journal of Materials Chemistry A, 2016, 4, 7762-7771.(IF=12.732)
专利1:黄富强,毕庆员,王鑫,尹国恒,王栋。用于将二氧化碳转化为一氧化碳的石墨烯包覆合金纳米催化剂及其制备方法。CN106622235A。
专利2:黄富强,黄冲,王东,王鑫,刘战强。一种纯相的铌的低价态氧化物纳米粉体及其制备方法和应用。201811153484.8。
