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      Reactions of Platinum Carbonyl Chini Clusters with Ag(NHC)Cl Complexes: Formation of Acid-Base Lewis Adducts and Heteroleptic Clusters.

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          Abstract

          The reactions of anionic platinum carbonyl Chini clusters [Pt3n(CO)6n](2-) [n = 2 (1), 3 (2), 4 (3)] with Ag(IPr)Cl [IPr = C3N2H2(C6H3(i)Pr2)2] afford the neutral acid-base Lewis adducts [Pt9(CO)18(AgIPr)2] (4) and [Pt6(CO)12(AgIPr)2] (5). These are thermally transformed into the homometallic heteroleptic neutral cluster [Pt3(CO)4(IPr)2] (6). Alternatively, 6 can be obtained from the reactions of 1-3 with an excess of the free IPr carbene ligand. The formation of 6 is sometimes accompanied by trace amounts of [Pt4(CO)4(IPr)3] (7). The reaction of 6 with free IPr affords the closely related [Pt3(CO)3(IPr)3] (8) heteroleptic cluster by substitution of the unique terminal CO ligand with a third IPr ligand. The reactions of 1-3 with Ag(IMes)Cl [IMes = C3N2H2(C6H2Me3)2] proceed differently from those involving Ag(IPr)Cl. Indeed, the only product isolated after workup is the bimetallic tetranuclear cluster [Pt3(CO)3(IMes)3(AgCl)] (9). 9 slowly reacts under a CO atmosphere, resulting in the pentanuclear [Pt5(CO)7(IMes)3] (10) complex. All of the new clusters 4-10 have been spectroscopically characterized and their molecular structures determined by X-ray crystallography. 4 and 5 retain the original trigonal-prismatic structures of the parent anionic Chini clusters, which are capped by two [Ag(IPr)](+) moieties. Conversely, 6-9 are based on a Pt3 triangular core decorated by CO and N-heterocyclic carbene ligands as well as Pt(CO) (in the case of 7) and AgCl (9) moieties. 10 displays an edge-bridged tetrahedral geometry.

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          Author and article information

          Journal
          Inorg Chem
          Inorganic chemistry
          American Chemical Society (ACS)
          1520-510X
          0020-1669
          May 10 2017
          Affiliations
          [1 ] Dipartimento di Scienze Molecolari e Nanosistemi, Ca' Foscari University of Venice , Via Torino 155, 30175 Mestre, Venice, Italy.
          [2 ] Dipartimento di Chimica Industriale "Toso Montanari″, University of Bologna , Viale Risorgimento 4, I-40136 Bologna Italy.
          Article
          10.1021/acs.inorgchem.7b00665
          28489358
          242bcd81-c909-4bb4-ac90-51b1cf36b732
          History

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