硫化钴和硫化钴低指数表面上水吸附与析氢的从头算研究

Ab Initio Investigation of Water Adsorption and Hydrogen Evolution on CoS and CoS Low-Index Surfaces.

作者信息

Fronzi Marco, Assadi M Hussein N, Ford Michael J

机构信息

International Research Centre for Renewable Energy, State Key Laboratory of Multiphase Flow in Power Engineering, Xi'an Jiaotong University, Xi'an 710049, Shaanxi, China.

School of Mathematical and Physical Sciences, University of Technology, P.O. Box 123, Broadway, Sydney, New South Wales 2007, Australia.

出版信息

ACS Omega. 2018 Sep 28;3(9):12215-12228. doi: 10.1021/acsomega.8b00989. eCollection 2018 Sep 30.

DOI:10.1021/acsomega.8b00989

PMID:31459296

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6645533/

Abstract

We used density functional theory approach, with the inclusion of a semiempirical dispersion potential to take into account van der Waals interactions, to investigate the water adsorption and dissociation on cobalt sulfide CoS and CoS(100) surfaces. We first determined the nanocrystal shape and selected representative surfaces to analyze. We then calculated water adsorption and dissociation energies, as well as hydrogen and oxygen adsorption energies, and we found that sulfur vacancies on CoS(100) surface enhance the catalytic activity toward water dissociation by raising the energy level of unhybridized Co 3d states closer to the Fermi level. Sulfur vacancies, however, do not have a significant impact on the energetics of CoS(100) surface.

摘要

我们采用密度泛函理论方法，并纳入半经验色散势以考虑范德华相互作用，来研究水在硫化钴CoS和CoS(100)表面的吸附和解离。我们首先确定了纳米晶体的形状并选择代表性表面进行分析。然后我们计算了水的吸附和解离能以及氢和氧的吸附能，并且发现CoS(100)表面的硫空位通过将未杂化的Co 3d态的能级提升至更接近费米能级，增强了对水分解的催化活性。然而，硫空位对CoS(100)表面的能量学没有显著影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f3ac/6645533/373c5f27f8a2/ao-2018-00989t_0012.jpg

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硫化钴和硫化钴低指数表面上水吸附与析氢的从头算研究

Ab Initio Investigation of Water Adsorption and Hydrogen Evolution on CoS and CoS Low-Index Surfaces.

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