RT Book,_Section
T1 Characteristics of the interaction in azulene···(H2X)n=1,2(X=O,S) clusters
A1 Cabaleiro Lago, Enrique Manuel
A1 Peña Gallego, María de los Ángeles
A1 Rodríguez Otero, Jesús
A1 Montero Campillo, María de la Merced
AB A computational study of clusters containing azulene and up to two molecules of water or hydrogen sulfide was carried out to elucidate the main characteristics of these X-H···π interacting systems. For clusters with one H2X molecule only one structure was found interacting with the aromatic cloud of azulene, with an interaction energy of -3.1 kcal/mol both for H2O and H2S as calculated at the CCSD(T)/AVDZ level. On the other hand, MP2 overestimates the interaction in hydrogen sulfide clusters, whereas the MPWB1K functional produces values in very good agreement with CCSD(T). A variety of structures were located for clusters with two H2X molecules. The most stable ones are those which simultaneously present hydrogen bond between H2X molecules and X-H···π contacts. Also, only this kind of structure presents relevant three body stabilizing contributions. On the other hand, the interaction of azulene with (H2X)2 dimer is stronger precisely for structures which do not present X-H···X hydrogen bond. This suggest that for larger systems, structures with the molecules distributed over the aromatic surface but without interacting among them, can be competitive with other, hydrogen bonded clusters, especially in H2S containing systems
PB MDPI
SN 3-906980-19-7
YR 2007
FD 2007
LK http://hdl.handle.net/10347/26826
UL http://hdl.handle.net/10347/26826
LA eng
NO Cabaleiro-Lago, E.M.; Peña-Gallego, Á.; Rodríguez-Otero, J.; Montero-Campillo, M.M. Characteristics of the interaction in azulene···(H2X)n=1,2(X=O,S) clusters, in Proceedings of the 11th International Electronic Conference on Synthetic Organic Chemistry, 1–30 November 2007, MDPI: Basel, Switzerland, doi:10.3390/ecsoc-11-01368
NO The 11th International Electronic Conference on Synthetic Organic Chemistry session Computational Chemistry
DS Minerva
RD 28 abr 2026