Interaction of acetonitrile with alkaline metal cations: A density functional, coupled‐cluster, and quadratic configuration interaction study

Abstract: ABSTRACT:A systematic quantum chemical study of CH 3 CN and its CH 3 CN· · ·M + 1:1 model adducts (M + ∈ {Li + , Na + }) is presented, with respect to binding energetics, structural and vibrational force field changes. Several gradient-corrected density functional levels of theory were employed (of both "pure" and "hybrid" character), together with the coupled cluster including double substitutions from the Hartree-Fock determinant (CCD) and quadratic configuration interaction including single and double subst… Show more

“…Another explanation is the lower polarizing power of Li + compared with the proton. Nevertheless, the covalent contribution to the bonding of neutral ligands with Li + is significant [31,32]. Quite interestingly, the lithium cation binds relatively strongly to aromatic systems [33][34][35][36][37][38][39][40] that are weakly polar or nonpolar, providing evidence that bonding mechanisms other than pure ion/dipole are acting.…”

Gas-Phase Lithium Cation Basicity: Revisiting the High Basicity Range by Experiment and Theory

“…Another explanation is the lower polarizing power of Li + compared with the proton. Nevertheless, the covalent contribution to the bonding of neutral ligands with Li + is significant [31,32]. Quite interestingly, the lithium cation binds relatively strongly to aromatic systems [33][34][35][36][37][38][39][40] that are weakly polar or nonpolar, providing evidence that bonding mechanisms other than pure ion/dipole are acting.…”

Gas-Phase Lithium Cation Basicity: Revisiting the High Basicity Range by Experiment and Theory

“…Studies of the solvation of alkali metal ions in acetonitrile solvents are not as common as studies of water systems, however good numbers of reports are available in literature [21][22][23][24][25][26][27][28][29][30][31][32][33][34][35][36][37][38][39][40]. Using mass spectrometry, Megyes et al [21] found up to six acetonitrile molecules surrounding the Li + ion in the gas phase.…”

“…The clusters of an alkali metal ion solvated with acetonitrile molecules have also been studied by many theoretical calculations in the past decades [30][31][32][33][34][35][36][37][38][39][40]. Various theoretical simulations have been made to describe the solvation of cations in acetonitrile molecules with, usually employing empirical/semi-empirical/realistic potential functions [30][31][32][33][34][35][36][37][38].…”

“…Apart from molecular dynamics and Monte Carlo simulation, all electron ab-initio calculations have also been carried out on solvation of alkali metal ions in small size acetonitrile clusters [29,39,40]. A variety of correlated methods were used by Pejov [39] to study the interaction of Li + and Na + with single CH 3 CN molecule.…”

“…A variety of correlated methods were used by Pejov [39] to study the interaction of Li + and Na + with single CH 3 CN molecule. Cabaleiro-Lago and Rios reported the gas phase structure of Li + , Na + , and Mg 2+ (CH 3 CN) n clusters using HF, B3LYP and MP2/6-31+G(d) calculations [40].…”

Microsolvation of sodium ion in acetonitrile clusters: Structure and energetic trend by first principle study

Ligand‐Exchange Processes on Solvated Lithium Cations: Acetonitrile and Hydrogen Cyanide