Abstract
Novel mixed bis(alkynyl)bis(cyano)platinate(II) species [cis-Pt(Ctbond;CR)(2)(CN)(2)](2-) (1 a: R = tBu, 1 b: R = Ph) have been prepared and their potential as building blocks in the generation of self-organized systems with a variable molecular architecture has been studied. The reaction of 1 with the ditopic acceptor species [[cis-Pt(C(6)F(5))(2)S](2)(dppa)] (dppa=diphenylphosphinoacetylene) gave the dianionic cyanide/dppa bridged molecular platinotriangles (NBu(4))(2)[(C(6)F(5))(2)Pt(micro-dppa)[(micro-CN)(2)Pt(Ctbond;CR)(2)]Pt(C(6)F(5))(2)] (2). X-ray analysis of 2 a confirmed that the "Pt(2)(C(6)F(5))(4)(micro-dppa)" binuclear moiety is connected to the dianionic "Pt(Ctbond;CR)(2)(CN)(2)" unit by two bridging cyanide ligands. Moreover, treatment of 1 with the solvent cationic species [M(cod)(acetone)(2)](+) afforded heterometallic molecular squares Pt(2)M(2) (M=Rh, Ir) containing cyanide bridges and terminal alkynyl ligands, (NBu(4))(2)[cyclo[[cis-Pt(Ctbond;CR)(2)(micro-CN)(2)][M(cod)]](2)] (3: M=Rh, 4: M = Ir). The solid-state structures of phenyl derivatives have been determined by X-ray crystallography. The terminal alkynyl ligands in these cyanide-bridged molecular squares 3 and 4 have been used in the assembly of higher multimetallic complexes. Thus, very unusual bis(double-alkynide)-cyanide-bridged hexametallic compounds (NBu(4))(2)[[(C(6)F(5))(2)Pt(micro-Ctbond;CPh)(2)(micro-CN)(2)](2)[M(cod)](2)] (5 b: M=Rh, 6 b: M = Ir) were easily formed by simple reactions of 3 b and 4 b with two equivalents of [cis-Pt(C(6)F(5))(2)(thf)(2)]. An X-ray diffraction study on complex 5 b indicated that the derivative was formed by a simultaneous migration of one sigma-alkynyl group from each "Pt(Ctbond;CPh)(2)(micro-CN)(2)" corner of the square to both "Pt(C(6)F(5))(2)" units, resulting in bent sigma,pi-double-alkynyl bridging systems. Finally, the novel supramolecular anionic assemblies (NBu(4))(4)[cyclo[[cis-Pt(Ctbond;CR)(2)(micro-CN)(2)][SnPh(3)]](4)] 7 have been obtained by self-assembly of 1 and [SnPh(3)(acetone)(2)](+).
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