Department of Chemistry, Youngstown State University, Youngstown, Ohio 44555, USA.
J Phys Chem A. 2010 Aug 19;114(32):8463-73. doi: 10.1021/jp105220w.
A systematic ab initio study has been carried out to investigate the structures, binding energies, and spin-spin coupling constants of binary complexes A...NCH and NCH...C and ternary complexes A...NCH...C for A,C = HCN, HF, HCl, FCl, and HLi. These complexes are stabilized by some combination of hydrogen bonds, dihydrogen bonds, halogen bonds, and lithium bonds. The binding energies of the ternary complexes are enhanced relative to those of the corresponding binary complexes, suggesting that A...NCH is a stronger proton-donor acid and NCH...C is a stronger base relative to the isolated monomer HCN. The ternary complexes with the largest enhancement energies are FH...NCH...HLi, HLi...NCH...NCH, and HLi...NCH...HLi, each containing molecules with large dipole moments, and each with a linear head-to-tail arrangement of dipole moment vectors. The equation-of-motion coupled-cluster single and doubles method (EOM-CCSD) has been employed to evaluate spin-spin coupling constants across intermolecular bonds for binary complexes A...NCH and NCH...C and for ternary complexes A...NCH...C. These data are used to investigate how the presence of C influences coupling constants associated with the A...NCH interaction, and how the presence of A influences coupling constants for the NCH...C interaction. Changes in coupling constants in the ternary complexes relative to the binary may be related to the binding energies of corresponding binary complexes and the enhanced binding energies of the ternary complexes. Two-bond coupling constants across X-H...Y hydrogen bonds [(2h)J(X-Y)] are related to changes in intermolecular distances.
已进行了系统的从头算研究,以研究二元复合物 A...NCH 和 NCH...C 以及三元复合物 A...NCH...C 的结构、结合能和自旋-自旋耦合常数,其中 A、C = HCN、HF、HCl、FCl 和 HLi。这些复合物通过氢键、双氢键、卤素键和锂键的某种组合稳定。三元复合物的结合能相对于相应的二元复合物增强,表明 A...NCH 是比孤立单体 HCN 更强的质子供体酸,而 NCH...C 是更强的碱。增强能最大的三元复合物分别是 FH...NCH...HLi、HLi...NCH...NCH 和 HLi...NCH...HLi,每个复合物都含有具有较大偶极矩的分子,并且每个复合物都具有线性的头到尾偶极矩矢量排列。已采用运动方程耦合簇单双激发(EOM-CCSD)方法评估二元复合物 A...NCH 和 NCH...C 以及三元复合物 A...NCH...C 中分子间键的自旋-自旋耦合常数。这些数据用于研究 C 的存在如何影响与 A...NCH 相互作用相关的耦合常数,以及 A 的存在如何影响 NCH...C 相互作用的耦合常数。三元复合物中相对于二元复合物的耦合常数的变化可能与相应的二元复合物的结合能以及三元复合物的增强结合能有关。X-H...Y 氢键中的两键耦合常数[(2h)J(X-Y)]与分子间距离的变化有关。
