Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5747069 | Chemosphere | 2017 | 8 Pages |
â¢A novel aromatic meta-substituent grouping model for k of OH oxidation of PCBs.â¢Polarizability is highly correlated to Hammett constant based on meta-substituents.â¢This model features a combination of good predictability and simplicity.
In this study, a novel model based on aromatic meta-substituent grouping was presented to predict the second-order rate constants (k) for OH oxidation of PCBs in gas-phase. Since the oxidation kinetics are dependent on the chlorination degree and position, we hypothesized that it may be more accurate for k value prediction if we group PCB congeners based on substitution positions (i.e., ortho (o), meta (m), and para (p)). To test this hypothesis, we examined the correlation of polarizability (α), a quantum chemical based descriptor for k values, with an empirical Hammett constant (Ï+) on each substitution position. Our result shows that α is highly linearly correlated to âÏo,m,p+ based on aromatic meta-substituents leading to the grouping based predictive model. With the new model, the calculated k values exhibited an excellent agreement with experimental measurements, and greater predictive power than the quantum chemical based quantitative structure activity relationship (QSAR) model. Further, the relationship of α and âÏo,m,p+ for PCDDs congeners, together with highest occupied molecular orbital (HOMO) distribution, were used to validate the aromatic meta-substituent grouping method. This newly developed model features a combination of good predictability of quantum chemical based QSAR model and simplicity of Hammett relationship, showing a great potential for fast and computational tractable prediction of k values for gas-phase OH oxidation of polychlorinated compounds.
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