Mono- and dinuclear gold(I) thio- and selenocyanate complexes

Daniel Schneider, Stefan Nogai, Annette Schier, Hubert Schmidbaur

Research output: Contribution to journalArticlepeer-review

25 Scopus citations

Abstract

Complexes of the type (R3P)AuSCN and (R3P)AuSeCN have been prepared in high yields from the corresponding chlorides (R3P)AuCl by treatment with KSCN or KSeCN, respectively, in a two-phase water/dichloromethane system. Crystal structure determinations revealed discrete monomeric molecules for the isomorphous thiocyanate and selenocyanate compounds with R=2-MeC6H4. For R=iPro there is only weak association into dimers via long Au-S contacts, but for R3=Me2PhP chain-like polymers are formed via short aurophilic interactions [Au-Au, 3.2334(2) and 3.2533(2) Å]. A monoclinic modification of (Ph3P)AuSCN was found, which shows a standard geometry of the molecules. An orthorhombic modification published previously featured a doubtful strongly distorted molecular geometry. All compounds of the type (R3P)AuS/SeCN can be converted into salts with dinuclear cations {[(R3P)Au]2S/SeCN}+Y- on reaction with equimolar quantities of [(R3P)Au]+Y- (Y=BF4, SbF6) as confirmed by analytical and spectroscopic data. The S/SeCN units are found to be bridging the two metal atoms via the S/Se atoms. The tetrafluoroborates are less stable than the hexafluoroantimonates, and all selenocyanate complexes are markedly less stable thermally and more sensitive towards air and moisture than their sulfur counterparts.

Original languageEnglish
Pages (from-to)179-187
Number of pages9
JournalInorganica Chimica Acta
Volume352
DOIs
StatePublished - 6 Aug 2003
Externally publishedYes

Keywords

  • Gold
  • Selenocyanate complexes
  • Thiocyanate complexes

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