A stable composite photocatalyst,
that is, MAPbI3 decorated
with Ni3C, is synthesized by a facile surface charge-promoted
self-assembly approach and is demonstrated to be a high-efficiency,
stable visible-light photocatalyst for H2 evolution in
aqueous MAPbI3-saturated HI solution with H3PO2 as a stabilizer. The optimal 15% Ni3C/MAPbI3 suspension under visible illumination displays the hydrogen
evolution reaction (HER) rate of 2362 μmol g–1 h–1, which is approximately 55-fold higher
than that of MAPbI3 (43 μmol g–1 h–1) and far superior to that of Pt/MAPbI3 (534 μmol g–1 h–1). In particular, the Ni3C/MAPbI3 photocatalyst is ultrastable, showing no obvious decrease of HER
activity in a given HER process, that is, 10 runs, one-month storage,
and another 10 runs. The origin of the superior performance is proven
to be predominantly attributed to the improved capabilities of charge
carrier transfer and separation as well as the massive reactive centers
on the surface of MAPbI3 by Ni3C decoration,
together with the high stability of the composite in HI solution during
the photoreaction.
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