TY - JOUR
T1 - Mono- and dinuclear gold(I) thio- and selenocyanate complexes
AU - Schneider, Daniel
AU - Nogai, Stefan
AU - Schier, Annette
AU - Schmidbaur, Hubert
PY - 2003/8/6
Y1 - 2003/8/6
N2 - 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.
AB - 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.
KW - Gold
KW - Selenocyanate complexes
KW - Thiocyanate complexes
UR - http://www.scopus.com/inward/record.url?scp=0041697018&partnerID=8YFLogxK
U2 - 10.1016/S0020-1693(03)00144-0
DO - 10.1016/S0020-1693(03)00144-0
M3 - Article
AN - SCOPUS:0041697018
SN - 0020-1693
VL - 352
SP - 179
EP - 187
JO - Inorganica Chimica Acta
JF - Inorganica Chimica Acta
ER -