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康振辉教授课题组与东北师范大学合作在Energy & Environmental Science上发表文章
发布时间:2017-5-31 10:37:26 点击:

题目:

Highly Efficient Hydrogen Evolution from Seawater by a Low-cost and Stable CoMoP@C Electrocatalyst Superior to Pt/C

 

 

作者:

Yuan-Yuan Ma, ‡a Cai-Xia Wu, ‡a Xiao-Jia Feng,a Hua-Qiao Tan,*a Li-Kai Yan,a Yang Liu,b Zhen-Hui Kang,*b En-Bo Wanga and Yang-Guang Li*a

 

 

单位:

a Key Laboratory of Polyoxometalate Science of the Ministry of Education, Faculty of Chemistry, Northeast Normal University, Changchun, 130024, China.

b Jiangsu Key Laboratory for Carbon-based Functional Materials and Devices, Institute of Functional Nano and Soft Materials (FUNSOM), Soochow University, Suzhou 215123, China.

 

 

摘要:

The hydrogen evolution reaction (HER) based on water electrolysis is a promising strategy for hydrogen energy production, in which the key point is seeking low-cost, high efficiency and stable electrocatalysts. Currently, the most efficient electrocatalysts for the HER are Pt-based catalysts (especially commercial Pt/C), but the low abundance and high cost of Pt hinder their widespread application. Herein, we demonstrate that a cobalt molybdenum phosphide nanocrystal coated by a few-layer N-doped carbon shell (CoMoP@C) is an excellent substitute for the HER. CoMoP@C is prepared by a one-step pyrolysis method on a large scale with polyoxometalate (POM) as a molecular platform. The catalytic activity of CoMoP@C is close to that of commercial 20% Pt/C under pH = 0–1 conditions and superior to that of 20% Pt/C under pH = 2–14 conditions at high overpotential (e.g. h> 240 mV at pH = 2.2). In real seawater, CoMoP@C exhibits stable HER performance with a high Faradaic efficiency (FE) of 92.5%, while the HER activity of 20% Pt/C dramatically decreases after 4 h. The remarkable HER performance of CoMoP@C should be attributed to the low free energy of H on the central CoMoP crystalline core and the multiple functions of the outer N-doped C shell (especially the strong H+ absorption behavior). This work may provide new options for the design and preparation of promising HER electrocatalysts superior to Pt/C, which can be used directly in seawater.

 

 

影响因子:

25.427

 

 

分区情况:

1

 

 

链接:  

http://pubs.rsc.org/en/content/articlelanding/2017/ee/c6ee03768b#!divAbstract

 

 

责任编辑:向丹婷 联系方式dtxiang@suda.edu.cn



                                                         



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