Two nickel-added poly(polyoxometalate)s built of Keggin-type {Ni6PW9} and Anderson-type NiW6O24via WO4/Sb2O bridges and Ni–O–W linkages with efficient hydrogen evolution activity

Abstract

Two Ni-added poly(polyoxometalate)s built of Keggin-type {Ni₆PW₉} and Anderson-type NiW₆O₂₄ units via WO₄/Sb₂O bridges and Ni–O–W linkages, Na₄H₈[Ni(enMe)₂][(Sb₂O)₂(NiW₆O₂₄)-{Ni₁₂O₂(OH)₄(enMe)₄(H₂O)₃(WO₄)₂(B-α-PW₉O₃₄)₂}₂]·39H₂O (1) and H₉[Ni(en)₂(H₂O)][Ni_0.5(en)₂(H₂O)][Ni-(enMe)₂(H₂O)][(Sb₂O)₂(NiW₆O₂₄){Ni₁₂O₂(OH)₄(en)₂(enMe)₂(H₂O)₃(WO₄)₂}-{Ni₁₂O₂(OH)₄(en)₄(H₂O)₃(WO₄)₂}(B-α-PW₉O₃₄)₄]·45H₂O (2), have been hydrothermally synthesized and characterized, in which the {Ni₁₂(WO₄)₂(PW₉)₂} subunit was obtained by the synergistic directing effect of 2 lacunary PW₉O₃₄ (PW₉) fragments and further linked by a central Anderson-type (Sb₂O)₂(NiW₆O₂₄) bridge. Both compounds represent the first example of Ni-added polyoxometalates (POMs) simultaneously based on Keggin-type and Anderson-type POM components. Photocatalytic studies revealed that 2 can work as an efficient heterogeneous catalyst towards a light-driven H₂ evolution reaction, achieving a hydrogen evolution rate of as high as 19 214 μmol g⁻¹ h⁻¹ (TON = 1500), which is superior to most of the reported POM-based heterogeneous catalysts.