张 瑞
作者: 佚名   审核人: 戴勇   信息来源: 本站原创    发布时间: 2023-09-04

IMG_20230916_142216

张瑞

副教授


研究方向

电催化

联系方式

办公室

行远楼A305

E-mail

zhangrui@ycit.cn

联系电话

0515-88298848

教育经历

2004.092008.06

2008.092012.06

2012.092015.11

黑龙江大学

黑龙江大学

东南大学

材料化学

物理化学

材料物理与化学

学士

硕士

博士

工作经历

2009.07-2010.07


2016.08至今

甘肃省永昌县河西堡镇

经济发展局

盐城工学院

西部计划志愿者


讲师、副教授

荣誉与奖励

1. 盐城工学院2311高层次人才黄海新秀

研究项目

1. 主持国家自然科学基金项目碳酸根基双位点型催化剂的构筑及其电还原CO2的机制21906142”。

2. 主持盐城工学院人才引进项目“超薄二维Co3O4纳米片的制备及其在KHCO3水溶液中的析氧性能研究(XJ201717)”。

3. 主持教育部功能无机材料化学教育部重点实验室开放基金项目硫化镍催化剂的电子结构调控及其电解水性能研究”。

4. 主持江苏省普通高校研究生科研创新计划“用二氧化碳的电化学还原收获太阳能(CXLX13_086)”。

代表性论文

1. Lv, W.   X.; Zhu L; Kong X. P.; Shi H. T.;   Wang C. C.; Zhang R.*; Wang W.*; Enhancement effects of Fe-doped Ni3S2   on efficient electrochemical urea oxidation and mechanism insights, J. Alloy.   Compd., 2023, 965, 171292.

2. Zhang R; Zhu L; Lv W. X.*; Wei M. J.; Wang L.*; Wang W.*; Facile synthesis of Ni3S2 nanosheets   with abundant active sites induced by Fe incorporation on Ni foam for   enhanced oxygen evolution reaction, Appl. Surf. Sci., 2023, 610, 155537.

3. Lv, W.   X.; Zhu L; Cheng L. Z.; Wang Z.; Zhang R.*; Wang W.*; FeNiCo-based crystalline–amorphous nanohybrid grown on Ni foam   as a trimetallic synergistic electrocatalyst for oxygen evolution reaction, J. Appl. Electrochem., 2022, 52(10)1481-1487.

4. Zhu L.; Zhang, R.*; Lv W. X.;Wei M.   J.; Wang W.*; One-pot hydrothermal synthesis of Fe, W   co-doped Ni3S2/NiS on Ni foam for bifunctional oxygen   evolution and urea oxidation reactions, Int. J.   Electrochem. Sci., 2022, 17,   221043.

5. Zhang R; Wang Z.; Zhu L.; Lv W. X.; Fan D. H.*; Wang W.*; Effect of the amount of carbon/nitrogen feedstocks on oxygen   reduction reaction activity of FeCoNi nanoparticles embedded in   nitrogen-doped carbon matrix, ChemistrySelect, 2022, 7, e202104452.

6. Zhang R; Wang Z.; Zhu L.; Lv W. X.*; Wang W.*; Phosphorus modification of   cobalt–iron nanoparticles embedded in a nitrogen-doped carbon network for   oxygen reduction reaction, RSC Adv., 2021, 11, 9450-9458.

7. Zhang R;   Cheng L. Z.; Wang Z.; Kong F. Y.;   Tsegazab Y.; Lv W. X.*; Wang W.*; Ni3S2-Co9S8   heterostructure nanowires supported on Ni foam as highly efficient and stable   electrocatalyst for oxygen evolution reaction, Appl. Surf. Sci.,   2020, 526, 0-146753.

8. Cheng L. Z.; Zhang, R.*; Lv W. X.; Shao L.   Y.; Wang Z.; Wang W.*; Surface phosphation of 3D NiCo2O4 nanowires grown on Ni foam as an efficient bifunctional catalyst for water splitting, Nano, 2020, 15(02)2050024.

9. Wang Z.; Cheng L. Z.; Zhang, R.*; Lv W. X.; Wang W.*; Surface-oxidized   Fe-Co-Ni alloys anchored to N-doped carbon nanotubes as efficient catalysts   for oxygen reduction reaction, J. Alloy. Compd., 2020, 857, 158249.

10. Liu, S. X.; Zhang, R.*; Lv W. X.; Kong F. Y.; Wang W.*; Controlled synthesis of Co3O4   electrocatalysts with different morphologies and their application for oxygen   evolution reaction, Int. J.   Electrochem. Sci., 2018, 13,   3843-3854.

11.  Lv,   W. X.; Liu, S. X.; Zhang, R.*; Wang, W. J.;   Wang, Z. X.; Wang, L.; Wang, W.*, IrOx/CNxNTs as   electrocatalysts for oxygen evolution reaction in a HCO3/CO2 system   at neutral pH. J. Mater. Sci., 2018, 53 (7), 4939-4948;

12. Lv, W.   X.; Bei, J. J.; Zhang, R.*; Wang, W. J.; Kong,   F. Y.; Wang, L.; Wang, W.*, Bi2O2CO3 nanosheets   as electrocatalysts for selective reduction of CO2 to formate   at low overpotential. ACS omega 2017, 2 (6), 2561-2567;

13. Bei, J.   J.; Zhang, R.*; Chen Z. D.; Lv, W. X.; Wang,   W.*, Efficient   Reduction of CO2 to Formate Using in Situ Prepared Nano-Sized Bi   Electrocatalyst, Int. J.   Electrochem. Sci., 2017, 12,   2365-2375.

14. Lv, W.   X.; Zhou, J.; Bei, J. J.; Zhang, R.*; Wang, L.;   Xu, Q.; Wang, W.*, ectrodeposition of nano-sized bismuth on copper foil as   electrocatalyst for reduction of CO2 to formate. Appl. Surf.   Sci. 2017, 393, 191-196.

15. 张瑞,吕伟欣,雷立旭*. H型电解池中CO2电化学还原的阳极电解液问题. 电化学 2017, 23: 72-79.

16. Zhang, R.; Lv, W. X.; Lei, L. X.*; Role   of the oxide layer on Sn electrode in electrochemical reduction of CO2 to   formate. Appl. Surf. Sci. 2015, 356: 24-29.

17. Zhang, R.; Lv, W. X.; Li, G. H.; Lei, L.   X.*; Electrochemical reduction of CO2 on SnO2/nitrogen-doped   multiwalled carbon nanotubes composites in KHCO3 aqueous   solution, Mater. Lett. 2015, 141: 63-66.

18. Zhang,   R.; Lv, W. X.; Li, G. H.; Mohammed, A. M.; Li X. J.; Lei, L.   X.*; Electrochemical reduction of carbon dioxide to formate with a Sn cathode   and an IrxSnyRuzO2/Ti anode. RSC   Adv. 2015, 5: 68662-68667.

19. Zhang,   R.; Lv, W. X.; Li, G. H.; Mohammed, A. M.; Li X. J.; Lei, L.   X.*; Retarding of electrochemical oxidation of formate on the platinum anode   by a coat of Nafion membrane, J. Power Sources 2014, 272: 303-310.

20. Zhang,   R.; Li, L.; Chen, L.; Zhang, G.; Shi, K. Y.*; N-doped carbon   nanotubes synthesized in high yield and   decorated with CeO2 and SnO2 nanoparticles.   J. Alloy. Compd. 2011, 509: 8620-8624.

专利

1. CN202010457480.X 一种泡沫镍负载铁钴镍金属纳米催化剂及其制备方法与应用

2. CN201910424175.8 一种电还原CO2制甲酸盐的三室型电解池装置及其电解方法

3. CN201711192786.1 电极及其制备方法和应用以及制备甲酸的方法

4. CN202110489737.4 一种电解二氧化碳制甲酸钾的装置及电解方法

著作与教材

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