Polyoxometalate Ligation of PbS Nanocrystals.

While metal-oxide cluster anions (polyoxometalates, or POMs) stabilize metal nanoparticles (NPs) and metal-oxide nanocrystals (NCs) via established interactions, little is known concerning how POMs might stabilize PbS NCs. Small (ca. 3 nm) Rh and Ir NPs are stabilized "electrosterically", i.e, via combined electrostatic and steric factors, while larger Au NPs, with less severe curvatures, are protected by electrostatically stabilized monolayers involving the intercalation of countercations between close-packed assemblies of the POM polyanions. By contrast, heteropolytungstates stabilize metal-oxide NCs electrostatically, as observed for charged colloids, but also through direct coordination, wherein monolacunary heteropolytungstate-coordinated metal cations form μ-oxo linkages to metal ions at the NC surface. This raises a general question as to how POMs might stabilize metal-chalcogenide NCs. We now report that room-temperature reaction of the Pb-substituted monolacunary Wells-Dawson anion, α-[PPbWO], with NaS in water provides 4 ± 1 nm PbS NCs. These, in turn, are stabilized by the lacunary ions α-[PWO] () generated via the delivery of Pb to sulfide. Unlike POMs on metal NPs, or coordinated via μ-oxo linkages to metal-oxide NCs, the four formally W-O atoms at the periphery of the defect site of bind to Pb atoms at the (111) surface of the PbS NCs.