NeICl体系振动预解离的含时黄金规则近似处理

在相互作用绘景中运用含时黄金规则波包近似方法，对ＮｅＩＣｌ体系的振动预解离进行计算。这里的波包传播法消除了全量子方法中需要长的传播时间的困难，又由于采用了相互作用绘景，可以选取大的时间传播步长，只需很少的传播步数即可得到解高寿命及终产物的转动态分布。     

Combined multi-level quantum mechanics theories and molecular mechanics study of water-induced transition state of OH~- + CO_2 reaction in aqueous solution

The presence of a solvent interacting with a system brings about qualitative changes from the corresponding gasphase reactions. A solvent can not only change the energetics along the reaction pathway, but also radically alter the reaction mechanism. Here, we investigated the water-induced transition state of the OH~- + CO_2→ HCO_3~- reaction using a multi-level quantum mechanics and molecular mechanics method with an explicit water model. The solvent energy contribution along the reaction pathway has a maximum value which induces the highest energy point on the potential of mean force. The charge transfer from OH~- to CO_2 results in the breaking of the OH~- solvation shell and the forming of the CO_2 solvation shell. The loss of hydrogen bonds in the OH~-solvation shell without being compensated by the formation of hydrogen bonds in the CO_2 solvation shell induces the transition state in the aqueous solution. The calculated free energy reaction barrier at the CCSD(T)/MM level of theory, 11.8 kcal/mol, agrees very well with the experimental value, 12.1 kcal/mol.     

基于芯-电子结合能偏移的碱金属中的表面、尺寸和热效应

还原氧化石墨烯是大规模生产石墨烯的前体;然而迄今为止,还原氧化石墨烯的电子结构还没有达成共识. 本文运用从头分子动力学方法研究羟基在石墨烯表面的吸附过程. 在吸附过程中,OH基团首先在位于两个碳原子桥位上方形成物理吸附络合物,然后翻越过渡态,最终被吸附在一个碳原子的顶位位点. 结果显示5×5石墨烯表面最多可以吸附6个羟基,表明石墨烯表面羟基的覆盖率约为12%. 计算结果还显示,负吸附能随着羟基吸附数目的增加而线性增加,带隙也随着羟基吸附数目的增加而线性增加.     

Solvent effects and potential of mean force study of the S_N2 reaction of CH_3F+CN~- in water

We used a combined quantum mechanics and molecular mechanics(QM/MM) method to investigate the solvent effects and potential of mean force of the CH_3F+CN~- reaction in water. Comparing to gas phase, the water solution substantially affects the structures of the stationary points along the reaction path. We quantitatively obtained the solvent effects' contributions to the reaction: 1.7 kcal/mol to the activation barrier and -26.0 kcal/mol to the reaction free energy.The potential mean of force calculated with the density functional theory/MM theory has a barrier height at 19.7 kcal/mol,consistent with the experimental result at 23.0 kcal/mol; the calculated reaction free energy at -43.5 kcal/mol is also consistent with the one estimated based on the gas-phase data at -39.7 kcal/mol.