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Theoretical insights into interfacial and electronic structures of NiOx/SrTiO3 photocatalyst for overall water splitting

Theoretical insights into interfacial and electronic structures of NiOx/SrTiO3 photocatalyst for overall water splitting
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摘要 SrTiO3 is a promising candidate photocatalyst for overall water splitting.Loading suitable cocatalysts,such as NiOx,the mixture of Ni and NiO,remarkably improve the photocatalytic activity.However,spatial locations and functions of components in NiOx/SrTiO3 are under debate.Here,using first-principles density functional theory(DFT)calculations,we investigate the initial growth of Nin(n=1–4)and(NiO)n(n=1,2 and 4)clusters on stoichiometric(100)surfaces of SrTiO3,and explore interfacial and electronic structures of composite photocatalysts.It is found that Nin clusters are easier to undergo aggregation on SrO-termination than on TiO2-termination.The adsorption of Nincluster on(100)surfaces elevates the Fermi level towards the conduction band,which may benefit the occurrence of hydrogen evolution reaction.The structural similarity between(NiO)n cluster and surface has an essential effect on the most stable adsorption configuration.For(NiO)n/SrTiO3 systems,the occupied states of(NiO)n cluster well overlap with those of(100)surfaces in the valence band maximum,which is in favor of the separation of photogenerated electrons and holes to SrTiO3 support and(NiO)n cluster,respectively.The detailed DFT analysis provides important insights into the growth of NiOx on surfaces of SrTiO3and presents an explanation on the different models of NiOx/SrTiO3 photocatalyst proposed by experimental groups.Our calculations build a basis for further investigations on the mechanism of photocatalytic water-splitting reaction in NiOx/SrTiO3composite system. SrTiO3 is a promising candidate photocatalyst for overall water splitting.Loading suitable cocatalysts,such as NiOx,the mixture of Ni and NiO,remarkably improve the photocatalytic activity.However,spatial locations and functions of components in NiOx/SrTiO3 are under debate.Here,using first-principles density functional theory(DFT)calculations,we investigate the initial growth of Nin(n=1–4)and(NiO)n(n=1,2 and 4)clusters on stoichiometric(100)surfaces of SrTiO3,and explore interfacial and electronic structures of composite photocatalysts.It is found that Nin clusters are easier to undergo aggregation on SrO-termination than on TiO2-termination.The adsorption of Nincluster on(100)surfaces elevates the Fermi level towards the conduction band,which may benefit the occurrence of hydrogen evolution reaction.The structural similarity between(NiO)n cluster and surface has an essential effect on the most stable adsorption configuration.For(NiO)n/SrTiO3 systems,the occupied states of(NiO)n cluster well overlap with those of(100)surfaces in the valence band maximum,which is in favor of the separation of photogenerated electrons and holes to SrTiO3 support and(NiO)n cluster,respectively.The detailed DFT analysis provides important insights into the growth of NiOx on surfaces of SrTiO3and presents an explanation on the different models of NiOx/SrTiO3 photocatalyst proposed by experimental groups.Our calculations build a basis for further investigations on the mechanism of photocatalytic water-splitting reaction in NiOx/SrTiO3composite system.
出处 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2019年第6期138-148,共11页 能源化学(英文版)
基金 financially supported by the National Natural Science Foundation of China under Grant 21473183
关键词 Semiconductor-based PHOTOCATALYST Density functional theory COCATALYST Electronic structure calculation SRTIO3 Semiconductor-based photocatalyst Density functional theory Cocatalyst Electronic structure calculation SrTiO3
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