%0 Journal Article %1 RN6 %A Lopez-De-Luzuriaga, J.M. %A Monge, M. %A Olmos, M.E. %A Rodriguez-Castillo, M. %A Laguna, A. %A Mendizabal, F. %D 2011 %J Theoretical Chemistry Accounts %K au, chemistry, complexes copper, dqcauchile gold, interactions, metal-metal silver, thallium, theoretical %N 3-5 %P 593-602 %R 10.1007/s00214-011-0902-3 %T Basicity of Bisperhalophenyl Aurates toward Closed-Shell Metal Ions: Metallophilicity and Additional Interactions %U /brokenurl#<Go to ISI>://WOS:000290572300031 %V 129 %X The interaction of bisperhalophenyl aurates AuR2(-) (R = C6F5, C6F3Cl2, and C6Cl5) with the closed-shell Ag+, Cu+, and Tl+ ions has been studied theoretically and compared with the experimentally known X-ray diffraction crystal structures. Initially, the aurates have been fully optimized at MP2 level of theory in a D (2h) symmetry. The analysis of the basicity of the three aurates AuR2(-) (R = C6F5, C6F3Cl2 and C6Cl5) against Ag+ ions in a C (2v) symmetry has been calculated in point-by-point bsse-corrected interaction energy analysis at HF and MP2 levels of theory. Taking into account the experimental observation of additional interactions between the heterometals and C (ipso) atoms at the perhalophenyl rings or halogen atoms at the ortho position of the perhalophenyl rings, dinuclear models of the type AuR2(-)center dot center dot center dot Ag+ (R = C6Cl5, and C6F5); AuR2(-)center dot center dot center dot Cu+ (R = C6F5, and C6Cl5) and AuR2(-)center dot center dot center dot Tl+ (R = C6F5, and C6Cl5) with a C (2v) , C (2) , and C (s) symmetries have been optimized at DFT-B3LYP level. The interaction energies have been computed through bsse-corrected single point HF and MP2 calculations. The energy stabilization provided and the heterometal preference have been analyzed and compared with the experimental results.

@article{RN6, abstract = {The interaction of bisperhalophenyl aurates [AuR2](-) (R = C6F5, C6F3Cl2, and C6Cl5) with the closed-shell Ag+, Cu+, and Tl+ ions has been studied theoretically and compared with the experimentally known X-ray diffraction crystal structures. Initially, the aurates have been fully optimized at MP2 level of theory in a D (2h) symmetry. The analysis of the basicity of the three aurates [AuR2](-) (R = C6F5, C6F3Cl2 and C6Cl5) against Ag+ ions in a C (2v) symmetry has been calculated in point-by-point bsse-corrected interaction energy analysis at HF and MP2 levels of theory. Taking into account the experimental observation of additional interactions between the heterometals and C (ipso) atoms at the perhalophenyl rings or halogen atoms at the ortho position of the perhalophenyl rings, dinuclear models of the type [AuR2](-)center dot center dot center dot Ag+ (R = C6Cl5, and C6F5); [AuR2](-)center dot center dot center dot Cu+ (R = C6F5, and C6Cl5) and [AuR2](-)center dot center dot center dot Tl+ (R = C6F5, and C6Cl5) with a C (2v) , C (2) , and C (s) symmetries have been optimized at DFT-B3LYP level. The interaction energies have been computed through bsse-corrected single point HF and MP2 calculations. The energy stabilization provided and the heterometal preference have been analyzed and compared with the experimental results.}, added-at = {2019-12-04T03:57:35.000+0100}, author = {Lopez-De-Luzuriaga, J.M. and Monge, M. and Olmos, M.E. and Rodriguez-Castillo, M. and Laguna, A. and Mendizabal, F.}, biburl = {https://www.bibsonomy.org/bibtex/26805846d3fd0841df788eebc111ba0cc/dqcauchile}, doi = {10.1007/s00214-011-0902-3}, interhash = {132dc96e4cbbe23568e38a849e1497b0}, intrahash = {6805846d3fd0841df788eebc111ba0cc}, issn = {1432-881x}, journal = {Theoretical Chemistry Accounts}, keywords = {au, chemistry, complexes copper, dqcauchile gold, interactions, metal-metal silver, thallium, theoretical}, number = {3-5}, pages = {593-602}, timestamp = {2019-12-04T03:58:17.000+0100}, title = {Basicity of Bisperhalophenyl Aurates toward Closed-Shell Metal Ions: Metallophilicity and Additional Interactions}, type = {Journal Article}, url = {/brokenurl#<Go to ISI>://WOS:000290572300031}, volume = 129, year = 2011 }