TY - JOUR
T1 - Relativistic density‐functional studies of naked and ligated gold clusters
AU - Häberlen, Oliver D.
AU - Chung, Sai‐Cheong ‐C
AU - Rösch, Notker
AU - Rösch, Notker
PY - 1994
Y1 - 1994
N2 - Electronic structure investigations on a broad range of gold compounds, including naked and ligated gold clusters, are reviewed. The calculations have been carried out with a recently introduced relativistic variant of the linear combination of Gaussian‐type orbitals density‐functional (LCGTO–DF) method which affords all‐electron investigations for very large systems. The accuracy of the method will be evaluated for the gold dimer. Then the electronic structure of the naked cluster Au55 is studied, both in Ih and Oh symmetry. Nonrelativistic and relativistic results obtained by the present method are compared to those of the much simpler jellium model. Since triphenylphosphine is among the most common ligands in gold chemistry a series of mononuclear gold phosphine compounds MeAuPR3 with increasingly complex ligands PR3 (R = H, CH3, C5H6) is discussed. The calculations reveal the success and the limitations of simpler phosphines often employed as model ligands in theoretical studies. Some aspects of the phosphine gold interaction in these simpler compounds carry over to the main group element centered gold clusters. Thereby one arrives at a rationalization of the particularly high stability of the carbon‐centered octahedral cluster cation [(R3PAu)6C]2+ as compared to the neighboring isoelectronic boron and nitrogen‐centered clusters. © 1994 John Wiley & Sons, Inc.
AB - Electronic structure investigations on a broad range of gold compounds, including naked and ligated gold clusters, are reviewed. The calculations have been carried out with a recently introduced relativistic variant of the linear combination of Gaussian‐type orbitals density‐functional (LCGTO–DF) method which affords all‐electron investigations for very large systems. The accuracy of the method will be evaluated for the gold dimer. Then the electronic structure of the naked cluster Au55 is studied, both in Ih and Oh symmetry. Nonrelativistic and relativistic results obtained by the present method are compared to those of the much simpler jellium model. Since triphenylphosphine is among the most common ligands in gold chemistry a series of mononuclear gold phosphine compounds MeAuPR3 with increasingly complex ligands PR3 (R = H, CH3, C5H6) is discussed. The calculations reveal the success and the limitations of simpler phosphines often employed as model ligands in theoretical studies. Some aspects of the phosphine gold interaction in these simpler compounds carry over to the main group element centered gold clusters. Thereby one arrives at a rationalization of the particularly high stability of the carbon‐centered octahedral cluster cation [(R3PAu)6C]2+ as compared to the neighboring isoelectronic boron and nitrogen‐centered clusters. © 1994 John Wiley & Sons, Inc.
UR - http://www.scopus.com/inward/record.url?scp=84987141312&partnerID=8YFLogxK
U2 - 10.1002/qua.560520853
DO - 10.1002/qua.560520853
M3 - Article
AN - SCOPUS:84987141312
SN - 0020-7608
VL - 52
SP - 595
EP - 610
JO - International Journal of Quantum Chemistry
JF - International Journal of Quantum Chemistry
IS - 28 S
ER -