Krishnamohan G. P., Omar H., Sreeja T. D., Roy K. B.
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引用次数: 0
摘要
反应谱(能量谱)是化学动力学中广泛使用的表征化学反应过程的概念工具。定量地说,反应谱可以看作是势能面(PES)上的最小能量路径(MEP),它通过一个或多个过渡态或中间体连接反应物和生成物。在本文中,我们使用Mathematica程序演示了应用最速下降算法在 ller- brown PES上查找反应剖面的通用方法。详细讨论了MEP和平稳点的性质。通过氢交换反应H2+H→H+H2的振动分析,说明了过渡态(TS)和虚模的一般特征。
Exploring Potential Energy Surface with Mathematica: An Algorithmic Demonstration of Minimum Energy Path, Stationary Points and Transition State
The reaction profile (energy profile) is a widely used conceptual tool in chemical kinetics to represent the progress of a chemical reaction. Quantitatively, a reaction profile can be viewed as a minimum energy path (MEP) on the potential energy surface (PES), which connects the reactants and products through one or more transition states or intermediates. In this article, we used Mathematica program to demonstrate a generic method for finding reaction profile on a Müller-Brown PES by applying steepest descent algorithm. The properties of the MEP and stationary points were discussed in detail. The general characteristics of the transition state (TS), and imaginary mode were illustrated with a vibrational analysis of hydrogen exchange reaction, H2+H → H+H2.
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