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邻位吡啶自由基多通道分解反应的动力学和反应机理研究 总被引:1,自引:0,他引:1
Utilizing Gaussian94 program package, all species involved in decomposition reactions of o-pyridyl radical were optimized fully at B3LYP/6-311++G^** level. Intrinsic reaction coordinate calculations were employed to confirm the connections of the transition states and products, and transition states were ascertained by the number of imaginary frequency (0 or 1). The reaction mechanism was elucidated by the vibrational mode analysis and electronic population analysis, and the reaction rate constants were calculated with transition state theory. 相似文献
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采用密度泛函理论方法研究了[Rh(R,R-DIOP)]+[DIOP=(1R,2R)-1,2-O-异丙叉-1,2-二醚氧基-1,2-双(二苯基磷基)乙烷]催化下苯并环丁酮手性聚稠环过程在气相、四氢乙呋喃(THF)及水中的反应机理.计算结果表明,在气相中反应容易进行,经TS2形成六元环的过程为决速步骤,但产物无明显的对映选择性.在THF中,S-和R-通道的C—C键活化能垒仅由79.5和69.3 kJ/mol提高到80.2和88.8 kJ/mol,未改变反应的实质;Rh与2个C原子的配位明显弱于气相,相对于催化剂和反应物自由能之和,S-和R-通道的反应总能垒分别提高到63.8和68.1 kJ/mol.对于S-通道,溶剂THF使经TS2的能垒升至112.0 kJ/mol,仍为整个过程的决速步骤;然而对R-通道,溶剂使经TS1形成五元环过程的能垒升至91.5 kJ/mol,但使经TS2的能垒由78.9 kJ/mol降至77.7 kJ/mol,IM1→TS1成为决速步骤.在以水为溶剂时,经TS1形成五元环的过程成为2个通道的决速步骤,其在S-和R-通道中的能垒分别为102.5和94.9 kJ/mol.因此,溶剂改变了反应的决速步骤及能垒.3种方法均预测R-通道为主反应路径,但THF能明显增加产物的对映选择性.采用自然键轨道(NBO)电荷分析了反应过程中电荷的变化. 相似文献
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