H. Anane et al., STABILITY OF BORANE - ADDUCT COMPLEXES - A G-2 MOLECULAR-ORBITAL STUDY, The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory, 101(42), 1997, pp. 7879-7884
Complexation energies of H3BXHn, and [H3BXHn-1](-) complexes (X = N, O
, F, P, S, and Cl) (n = 3, 2, 1) have been computed at the G-2 level o
f theory. The formation of H3BXH3 (X = N, P) is found to be more favor
ed than the formations of H3BXH2 (X = O, S) and H3BXH (X = F, Cl). The
qualitative features of the molecular orbital interaction (the correl
ation diagrams) of H3BNH3 (C-3v symmetry group), H3BOH2 (C-s symmetry
group), and H3BFH (Cs symmetry group) complexes are presented. These d
iagrams show that the sigma character of the B-X bond decreases and th
e sc character increases when the electronegativity of X increases and
indicate that the B-X bond cannot be treated only in terms of the sim
plest model of the HOMOLUMO interaction (i.e., a two-level and two-ele
ctron model system). Two linear correlations were established and disc
ussed. The first one was between proton affinities of the Lewis bases
L (L = XHn and [XHn-1](-), n = 3, 2, 1) and complexation energies of t
he H3BL compounds calculated at the G-2 level of theory. The second co
rrelation was between the B-11 NMR coupling constant (1)J(B-H) and the
complexation energies of H3BL (L = OH-, PH2-, SH-, Cl-, NH3, and PH3)
.