The syntheses of atomically precise silver (Ag) clusters stabilized by multidentate lacunary polyoxometalate (POM) ligands have been emerging as a promising but challenging research direction, the combination of redox-active POM ligands and silver clusters will render them unexpected geometric structures and catalytic properties. Herein, we report the successful construction of two structurally-new lacunary POM-stabilized Ag clusters, TBA H Ag (DPPB) (CH CN) [Ag (Si W O ) ] ⋅ 10CH CN ⋅ 9H O ({Ag (Si W O ) }, TBA=tetra-n-butylammonium, DPPB=1,4-Bis(diphenylphosphino)butane) and TBA H Ag Na (H O) [Ag (Si W O ) ] ⋅ 8CH CN ⋅ 10H O ({Ag (Si W O ) }), using a facile one-pot solvothermal approach. Under otherwise identical synthetic conditions, the molecular structures of two POM-stabilized Ag clusters could be readily tuned by the addition of different organic ligands. In both compounds, the central trefoil-propeller-shaped {Ag } and {Ag } clusters bearing 10 delocalized valence electrons are stabilized by three C-shaped {Si W O } units. The femtosecond/nanosecond transient absorption spectroscopy revealed the rapid charge transfer between {Ag } core and {Si W O } ligands. Both compounds have been pioneeringly investigated as catalysts for photocatalytic CO reduction to HCOOH with a high selectivity.
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