205108-63-0Relevant academic research and scientific papers
X-Ray crystallographic and extended X-ray absorption fine structure studies of gold(I) complexes containing weak intermolecular interactions
Bishop, Peter,Marsh, Patsy,Brisdon, Alan K.,Brisdon, Brian J.,Mahon, Mary F.
, p. 675 - 682 (1998)
The crystal and molecular structures of [Au2{S2CN(C2H4OMe)2} 2], [Au(PPh3)(SCH2CO2H)], [Au(PPh3)(SCMe2CO2H)] and [Au(PPh3)(SCH2CO2Me)] have been determined. All compounds contain an approximately linear primary co-ordination sphere of ligands about the gold atom, but they differ markedly in their type of intermolecular interaction. In [Au2{S2CN(C2H4OMe)2} 2] the supramolecular array is dominated by an almost linear, polymeric backbone of gold atoms with alternate gold-gold contacts of 2.7902(6) (intramolecular) and 3.1572(7) A (intermolecular), whereas in [Au(PPh3)(SCH2CO2H)] dimers associated through long gold-sulfur contacts of 3.131(2) A are held together in a polymeric chain by hydrogen bonding between neighbouring carboxylic acid residues. The increased steric bulk of the thiolate ligand in [Au(PPh3)(SCMe2CO2H)] caused by the methyl groups on the α-carbon atom precludes association of the gold centres, but hydrogen bonding between carboxylates as in the SCH2CO2H compound causes dimerisation. Compound [Au(PPh3)(SCH2CO2Me)] exists as a monomer with no evidence of weak intermolecular interactions. Analysis of ambient-temperature EXAFS (extended X-ray absorption fine structure) measurements on solid samples of the first two compounds yield gold-gold separations of 2.775(2) and 3.271(6) A and 4.188(15) A, respectively. Gold-sulfur separations of 2.290(1) and 3.532(8) and of 2.329(4) and 3.124(19) A, respectively, are also in good agreement with X-ray data.
