Photoinduced structural change in hydrogenated amorphous silicon (a-Si:H) has been studied by a sensitive bending detection method using an optical lever. We observed that a-Si:H films show not only thermal expansion due to a photothermal effect but also residual and persistent expansion after light soaking. The volume change is recovered by thermal annealing at 200 °C. A dehydrogenated sample annealed at 550 °C and a microcrystalline sample, in which photoinduced defects are not created, show little photoinduced expansion. The photoinduced expansion and photoinduced defect density show identical time evolution. These results suggest that the photoinduced expansion is related to the photoinduced defect creation. A quantitative evaluation of the photoinduced expansion indicates that the photoinduced structural change is spread over several molecular volumes around a photocreated defect.
Loading
a cocatalyst onto a photocatalyst is a well-known effective
way to improve the efficiency of both one-step water splitting and
Z-scheme water splitting with a redox mediator. In Z-scheme water
splitting systems with an IO3
–/I– redox couple, the reduction of IO3
– on O2-evolving photocatalysts via a six-electron
process often represents the rate-determining step of the overall
process and therefore necessitates effective cocatalysts such as PtO
x
and RuO2. However, these cocatalysts
cannot be loaded onto thermally unstable materials via conventional
impregnation processes involving calcination. In the present study,
we introduce a Ru-based cocatalyst that can be loaded without calcination
and effectively promotes the reduction of IO3
– on various photocatalysts, including nonoxide materials. The results
reveal that the Ru species adsorbed via simple stirring of photocatalyst
particles such as WO3 in an aqueous RuCl3 solution
effectively trigger O2 generation in the presence of IO3
– as electron acceptor; moreover, the O2 evolution rate on the present Ru-loaded WO3 sample
was much higher than that on WO3 loaded with conventional
RuO2. The structural analysis indicates that the Ru species
adsorbed on WO3 are highly dispersed and characterized
by octahedral RuO6 environments similar to those found
in RuO2·nH2O. It was confirmed
that the loaded Ru species (most likely analogous to RuO2·nH2O) exhibit higher activity in
the reduction of IO3
– than anhydrous
RuO2, whereas RuO2 exhibits much higher activity
for the oxidation of water than RuO2·nH2O. The developed Ru-based cocatalyst was also applicable
to thermally unstable materials such as H2WO4 and Ta3N5, thus enabling them to generate
O2 in the presence of IO3
–.
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