期刊
ACS APPLIED MATERIALS & INTERFACES
卷 10, 期 6, 页码 5475-5484出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsami.7b15243
关键词
low-index surfaces; charge separation; surface energy; photocatalytic; Gibbs free energy
资金
- Ministry of Education of Singapore [RG15/16]
- National Natural Science Foundation of China [21676216]
- China Postdoctoral Science Foundation [2014M550507, 2015T81046]
Many experimental results reveal different activities among different low-index surfaces of photocatalysts. The current investigation focuses on the theoretical understanding of the electronic characteristics, surface activity, and stability of different low-index surfaces of BiVO4 toward water splitting-using first-principle calculations. The results indicate that BiVO4 has four types of low-index surfaces, namely, (0I0)T1, (010)T2, (110)1'1, and ((1) over bar 11)T1. The different band edge potentials of the surfaces, resulting from the variation of the electrostatic potential, lead to a higher oxidation ability for (010)T1 and (010)1'2 than for (110)T1 and ((1) over bar 11)T1 surfaces. The electrons prefer to accumulate on (010)T1 and (010)T2 surfaces, whereas holes like to accumulate on (110)T1 and ((1) over bar 11)T1 surfaces during, a photocatalytic process. Moreover, investigation on the adsorbed intermediates during the water-splitting, process indicates that the oxygen evolution reaction on BiVO4 surfaces is mainly dominated by the reaction OH* <->* 0* + H+ + e(-), and (110)T1 and (1-14)T1 surfaces are energetically more favorable as photoanodes for water splitting than (010)11 arid (010)T2. Furthermore, the BiVO4 surface as photoanodes tend to be=,unstable and can easily be corroded with or without the presence of an oxidative environment, however, there is an exception for the BiVO4 (010)T1 and (010)T2 surfaces, which are thermodynamically stable in the solution when there are no strong oxidative species. These results provide important insights into the anisotropy behaviors among low-index surfaces of BiVO4 for photocatalytic reactions.
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