Schwenk Christian F, Rode Bernd M
Institute of General, Inorganic and Theoretical Chemistry, University of Innsbruck, Innrain 52a, 6020 Innsbruck, Austria.
Chemphyschem. 2004 Mar 19;5(3):342-8. doi: 10.1002/cphc.200300972.
To investigate the solvation structure of the Cu(II) ion in liquid ammonia, ab initio quantum-mechanical/molecular-mechanical (QM/MM) molecular dynamics (MD) simulations were carried out at Hartree Fock (HF) and hybrid density functional theory (B3 LYP) levels. A sixfold-coordinated species was found to be predominant in the HF case whereas five- and sixfold-coordinated complexes were obtained in a ratio 2:1 from the B3 LYP simulation. In contrast to hydrated Cu(II), which exhibits a typical Jahn-Teller distortion, the geometrical arrangement of ligand molecules in the case of ammonia can be described as a [2 + 4] ([2 + 3]) configuration with 4 (3) elongated copper-nitrogen bonds. First shell solvent exchange reactions at picosecond rate took place in both HF and B3 LYP simulations, again in contrast to the more stable sixfold-coordinated hydrate. NH3 ligands apparently lead to strongly accelerated dynamics of the Cu(II) solvate due to the "inverse" [2 + 4] structure with its larger number of elongated copper-ligand bonds. Several dynamical properties, such as mean ligand residence times or ion-ligand stretching frequencies, prove the high lability of the solvated complex.
为了研究液态氨中铜(II)离子的溶剂化结构,在哈特里 - 福克(HF)和混合密度泛函理论(B3 LYP)水平上进行了从头算量子力学/分子力学(QM/MM)分子动力学(MD)模拟。在HF情况下发现六配位物种占主导,而从B3 LYP模拟中获得的五配位和六配位络合物的比例为2:1。与表现出典型的 Jahn - Teller 畸变的水合铜(II)相反,氨情况下配体分子的几何排列可以描述为具有4(3)个伸长的铜 - 氮键的[2 + 4]([2 + 3])构型。在HF和B3 LYP模拟中均发生了皮秒级速率的第一壳层溶剂交换反应,这再次与更稳定的六配位水合物形成对比。由于具有大量伸长的铜 - 配体键的“反向”[2 + 4]结构,NH3配体显然导致铜(II)溶剂化物的动力学强烈加速。一些动力学性质,如平均配体停留时间或离子 - 配体拉伸频率,证明了溶剂化络合物的高活性。