原子电荷计算方法的对比_卢天.pdfVIP

物理化学学报(Wuli Huaxue Xuebao) January Acta Phys. -Chim. Sin. 2012, 28 (1), 1-18 1 [Review] doi: 10.3866/PKU.WHXB2012281 原子电荷计算方法的对比 卢 天 陈飞武* (北京科技大学化学与生物工程学院, 北京100083) 摘要: 原子电荷是对化学体系中电荷分布最简单、最直观的描述形式之一, 在理论和实际应用中都有重要意 义. 本文介绍了12种重要的原子电荷计算方法的原理和特点, 通过大量实例从不同角度比较了它们的优缺点. 这些方法包括Mulliken、分子环境中的原子轨道(AOIM)、Hirshfeld、原子偶极矩校正的Hirshfeld 布居(ADCH)、 自然布居分析(NPA)、Merz-Kollmann (MK)、分子中的原子(AIM)、Merck 分子力场94 (MMFF94)、AM 1-BCC、 Gasteiger、电荷模型2(CM2) 以及电荷均衡(QEq)方法. 最后本文对如何在实际应用中选择合适的计算方法给 出了建议. 关键词: 原子电荷; 计算化学; 布居分析; 电负性; 静电势 中图分类号: O641 Comparison of Computational Methods for Atomic Charges LU Tian CHEN Fei-Wu* (School of Chemical and Biological Engineering, University of Science and Technology Beijing, Beijing 100083, P. R. China) Abstract: Atomic charge is one of the simplest and the most intuitive description of charge distribution in chemical systems. It has great significance in theory and in practical applications. In this article we introduce the basic principles and special characteristics of twelve important computational methods for the determination of atomic charges and compare their pros and cons from various aspects by considering a large number of instances. These methods include Mulliken, atomic orbitals in molecules (AOIM), Hirshfeld, atomic dipole moment corrected Hirshfeld population (ADCH), natural population analysis (NPA), Merz-Kollmann (MK), atom in molecules (AIM), Merck molecular force field 94 (MMFF94), AM1-BCC, Gasteige