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A DFT theoretical study of CH_4 dissociation on gold-alloyed Ni(111)surface 被引量:2

A DFT theoretical study of CH_4 dissociation on gold-alloyed Ni(111)surface
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摘要 A density-functional theory(DFT)method has been conducted to systematically investigate the adsorption of CHx(x=0~4)as well as the dissociation of CHx(x=1~4)on(111)facets of gold-alloyed Ni surface.The results have been compared with those obtained on pure Ni(111)surface.It shows that the adsorption energies of CHx(x=1~3)are lower,and the reaction barriers of CH4 dissociation are higher in the first and the fourth steps on gold-alloyed Ni(111)compared with those on pure Ni(111).In particular,the rate-determining step for CH4 dissociation is considered as the first step of dehydrogenation on gold-alloyed Ni(111),while it is the fourth step of dehydrogenation on pure Ni(111).Furthermore,the activation barrier in rate-determining step is higher by 0.41 eV on gold-alloyed Ni(111)than that on pure Ni(111).From above results,it can be concluded that carbon is not easy to form on gold-alloyed Ni(111)compared with that on pure Ni(111). A density-functional theory(DFT)method has been conducted to systematically investigate the adsorption of CHx(x=0~4)as well as the dissociation of CHx(x=1~4)on(111)facets of gold-alloyed Ni surface.The results have been compared with those obtained on pure Ni(111)surface.It shows that the adsorption energies of CHx(x=1~3)are lower,and the reaction barriers of CH4 dissociation are higher in the first and the fourth steps on gold-alloyed Ni(111)compared with those on pure Ni(111).In particular,the rate-determining step for CH4 dissociation is considered as the first step of dehydrogenation on gold-alloyed Ni(111),while it is the fourth step of dehydrogenation on pure Ni(111).Furthermore,the activation barrier in rate-determining step is higher by 0.41 eV on gold-alloyed Ni(111)than that on pure Ni(111).From above results,it can be concluded that carbon is not easy to form on gold-alloyed Ni(111)compared with that on pure Ni(111).
作者 Hongyan Liu Ruixia Yan Riguang Zhang Baojun Wang Kechang Xie
机构地区 Key Laboratory of Coal Science and Technology of Ministry of Education and Shanxi Province College of Chemistry and Chemical Engineering
出处 《Journal of Natural Gas Chemistry》 EI CAS CSCD 2011年第6期611-617,共7页 天然气化学杂志(英文版)
基金 supported financially by the National Basic Research Program of China(No.2005CB221203) the National Natural Science Foundation of China(No.20976115) the National Younger Natural Science Foundation of China(No.20906066)
关键词 ADSORPTION CH4 dissociation reaction barrier d-band center adsorption CH4 dissociation reaction barrier d-band center
分类号 O647.3 [理学—物理化学] TQ013.2 [化学工程]
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Journal of Natural Gas Chemistry
2011年 第6期

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