塔夫特方程
轨道能级差
化学
溶剂化
反应速率常数
从头算
计算化学
自由能关系
卤化
动能
物理化学
分子
动力学
立体化学
有机化学
物理
量子力学
取代基
作者
Michelle M. Scherer,Barbara A. Balko,David A. Gallagher,Paul G. Tratnyek
摘要
Dehalogenation is among the most important processes involved in contaminant fate, but despite all the work that has been done on the kinetics of dehalogenation, there are few linear free energy relationships (LFERs) that can be used to explain or predict rates of dehalogenation by environmental reductants. Previously, we summarized kinetic data for dehalogenation of chlorinated alkanes and alkenes by zero-valent iron (Fe0) and showed that correlation analysis of these data with published two-electron reduction potentials did not give a simple relationship. In this study, we report successful LFERs based on estimated lowest unoccupied molecular orbital (LUMO) energies calculated from semiempirical (AM1 and PM3) and ab initio methods (6-31G*) and one-electron reduction potentials. Solvation effects can be modeled with COSMO and incorporated into semiempirical estimates of ELUMO, but this did not improve the correlation with k. The best LFER (log k = −5.7−1.5 ELUMO) explains 83% of the variability in surface area-normalized rate constants (k) with ab initio LUMO energies. The LFER is improved by correcting for statistical bias introduced by back transformation from log-linear regression models. New kinetic data for six compounds are compared with rate constants predicted using the unbiased LFER.
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