Photochemical hydrogen evolution on metal ion surface-grafted TiO2-particles prepared by sol/gel method without calcination

[Display omitted] •Earth abundant element ions, FeIII and AlIII, promote hydrogen evolution on TiO2.•PtIV-, RhIII-, CuII-, FeIII-, AlIII-grafted TiO2 were prepared without calcination.•H2O2 has a good stability against RhIII-, FeIII-, and AlIII-grafted TiO2. We report here a new class of co-catalyst...

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Published in:Journal of photochemistry and photobiology. A, Chemistry. Chemistry., 2018-05, Vol.358, p.386-394
Main Authors: Kuttassery, Fazalurahman, Yamamoto, Daisuke, Mathew, Siby, Remello, Sebastian Nybin, Thomas, Arun, Nabetani, Yu, Iwase, Akihide, Kudo, Akihiko, Tachibana, Hiroshi, Inoue, Haruo
Format: Article
Language:English
Subjects:
Artificial photosynthesis
Hydrogen evolution
Photocatalysis
TiO2
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Summary:[Display omitted] •Earth abundant element ions, FeIII and AlIII, promote hydrogen evolution on TiO2.•PtIV-, RhIII-, CuII-, FeIII-, AlIII-grafted TiO2 were prepared without calcination.•H2O2 has a good stability against RhIII-, FeIII-, and AlIII-grafted TiO2. We report here a new class of co-catalysts for hydrogen evolution on TiO2 particles upon photo-irradiation. TiO2 particles prepared by sol/gel method was allowed to graft metal ion by a simple treatment with metal salts (Pt (IV), Rh (III), Cu (II), Fe(III), Al (III) ions) in water. The metal ion surface-grafted particles of TiO2(sol/gel) exhibit excellent photochemical hydrogen evolution compared to Pt (0) cluster loaded particles of TiO2(sol/gel) under the UV light irradiation of λ>290nm. XPS analysis shows that the valence states of the metal ions grafted on the TiO2 particles are the same with the parent metal ion salts and no metal (0) clusters were detected. DFT calculation of the simple model of metal ion/TiO2 indicated that an injected electron mostly localized on the metal ion sites, but not on Ti sites, which rationalizes the metal ion serve as the hydrogen evolution sites. Earth abundant metal ions, Cu (II), Fe (III), and Al (III) thus can provide new class of hydrogen evolution sites for artificial photosynthetic systems. To explore the possibility of utilizing semiconductor as an electron relay in the future system of molecular-catalyst-sensitized water splitting into hydrogen and hydrogen peroxide, the stability of hydrogen peroxide on various TiO2 surfaces was examined. Hydrogen peroxide was found to be pretty stable on Rh (III), Fe (III), and Al (III) ions surface-grafted TiO2, while Pt (IV) and Cu (II) ion grafted one similarly caused decomposition of hydrogen peroxide as Pt (0) cluster loaded TiO2 (Pt(0)/TiO2).
ISSN:1010-6030
1873-2666
DOI:10.1016/j.jphotochem.2017.09.048