American Chemical Society
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Tellurium(0) as a Ligand: Synthesis and Characterization of 2-Pyridyltellurolates of Platinum(II) and Structures of [Pt{2-Te-3-(R)C5H3N}2Te(PR′3)] (R = H or Me)

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posted on 2010-05-03, 00:00 authored by Rohit Singh Chauhan, G. Kedarnath, Amey Wadawale, Alvaro Muñoz-Castro, Ramiro Arratia-Perez, Vimal K. Jain, Wolfgang Kaim
Treatment of toluene solutions of the ditellurides [Te2{C5H3N(R)-3}2] (R = H or Me) with [Pt(PPh3)4] yielded two types of complexes, [Pt{2-Te-3-(R)C5H3N}2(PPh3)2] (1ad) as the major products and [Pt{2-Te-3-(R)C5H3N}2Te(PPh3)] (2ad) as minor products. The above complexes can also be obtained by the reaction of [PtCl2(PR′3)2] (PR′3 = PPh3 or PPh2(2-C5H4N)) with 2 equiv of Na(2-Te-C5H3R). The complexes were characterized by elemental analyses and UV−vis, NMR (1H and 31P), and (in part) XPS spectroscopy. The molecular structures of [Pt(2-Te-C5H4N)2Te(PPh3)] (2a) and [Pt{2-Te-C5H3(Me)N}2Te(PPh3)] (2b) were established by single crystal X-ray diffraction. Both complexes exhibit a distorted square-planar configuration at the platinum(II) centers. The two mutually trans positioned 2-pyridinetellurolate ligands [2-Te-C5H3(R)N] coordinate to the central platinum atom in a monodentate fashion through the tellurium atoms. The tellurium(0) atom adopts a “bent T” configuration as it is bridging the 2-Te- C5H3(R)N molecules via N−Te−N bonds (166° angle) and coordinates to PtII in the trans position to PPh3. The novel bis(pyridine)tellurium(0) arrangement resembles the bis(pyridine)iodonium structure. The calculated NICS indices and ELF functions clearly show that the compounds 2a and 2b are aromatic in the region defined by the Te−C−N−Te−Pt five-membered rings.