REACTIONS OF LASER-ABLATED BORON ATOMS WITH HCN DURING CONDENSATION IN ARGON - A COMPARISON OF MATRIX INFRARED AND DFT, CCSD(T), AND CASSCFFREQUENCIES OF BNC, BCN, HBNC, AND HBCN

Authors
LANZISERA DV ANDREWS L TAYLOR PR
Citation
Dv. Lanzisera et al., REACTIONS OF LASER-ABLATED BORON ATOMS WITH HCN DURING CONDENSATION IN ARGON - A COMPARISON OF MATRIX INFRARED AND DFT, CCSD(T), AND CASSCFFREQUENCIES OF BNC, BCN, HBNC, AND HBCN, The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory, 101(38), 1997, pp. 7134-7140
Citations number
21
Categorie Soggetti
Chemistry Physical
Journal title
The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theoryACNP
ISSN journal
10895639
Volume
101
Issue
38
Year of publication
1997
Pages
7134 - 7140
Database
ISI
SICI code
1089-5639(1997)101:38<7134:ROLBAW>2.0.ZU;2-E
Abstract
Laser-ablated boron atoms (B-10, B-11) have been reacted with hydrogen cyanide (HCN, (HCN)-C-13, DCN) during condensation in excess argon at 6-7 K. The major products observed in the matrix infrared spectrum ar e BNC and BCN with minor products HBNC, HBCN, and HB(CN). Although DFT calculations predict product vibrational frequencies reasonably well, CCSD(T) and CASSCF calculations are superior in predicting both frequ encies and intensities. In particular, CCSD(T) calculations by Martin and Taylor of anharmonic frequencies for BNC correctly predicted the s trong Fermi resonance interaction observed in the matrix spectrum.