Development
of water-stable metal–organic frameworks (MOFs)
for promising visible-light-driven photocatalytic water splitting
is highly desirable but still challenging. Here we report a novel
p-type nickel-based MOF single crystal (Ni-TBAPy-SC) and its exfoliated
nanobelts (Ni-TBAPy-NB) that can bear a wide range of pH environment
in aqueous solution. Both experimental and theoretical results indicate
a feasible electron transfer from the H4TBAPy ligand (light-harvesting
center) to the Ni–O cluster node (catalytic center), on which
water splitting to produce hydrogen can be efficiently driven free
of cocatalyst. Compared to the single crystal, the exfoliated two-dimensional
(2D) nanobelts show more efficient charge separation due to its shortened
charge transfer distance and remarkably enhanced active surface areas,
resulting in 164 times of promoted water reduction activity. The optimal
H2 evolution rate on the nanobelt reaches 98 μmol
h–1 (ca. 5 mmol h–1 g–1) showing benchmarked apparent quantum efficiency (AQE) of 8.0% at
420 nm among water-stable MOFs photocatalysts.
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