Density functional theory study of substituent effects on gas-phase heterolytic Fe-O and Fe-S bond energies of m-G-C₆H₄OFe(CO)₂(η⁵-C₅H₅) and m-G-C₆H₄SFe(CO)₂(η⁵-C₅H₅)

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• 作者：Qing Zeng ; Zucheng Li ; Yi-Bo Wang ; Huaqiang Zhai ; Bin Liu ; Ou Tao ; Ling Dong ; Jun Guan and Yujie Zhang
• 刊名：Journal of Physical Organic Chemistry
• 出版年：2017
• 出版时间：January 2017
• 年：2017
• 卷：30
• 期：1
• 全文大小：1471K
• ISSN：1099-1395

文摘

The knowledge of accurate bond strengths is a fundamental basis for a proper analysis of chemical reaction mechanisms. Quantum chemical calculations at different levels of theory have been used to investigate heterolytic Fe–O and Fe–S bond energies of (meta-substituted phenoxy)dicarbonyl(η⁵-cyclopentadienyl) iron [m-G-C₆H₄OFp ()] and (meta-substituted benzenethiolato)dicarbonyl(η⁵-cyclopentadienyl) iron [m-G-C₆H₄SFp ()] complexes. In this study, Fp is (η⁵-C₅H₅)Fe(CO)₂, and G is NO₂, CN, COMe, CO₂Me, CF₃, Br, Cl, F, H, Me, MeO, and NMe₂. The results show that Tao–Perdew–Staroverov–Scuseria and Becke's power-series ansatz from 1997 with dispersion corrections functionals can provide the best price/performance ratio and accurate predictions of ΔH_het(Fe–O)'s and ΔH_het(Fe–S)'s. The excellent linear free energy relations [r = 1.00 (g, 1e), 1.00 (g, 2b)] among the ΔΔH_het (Fe–O)'s and δΔG⁰ of OH bonds of m-G-C₆H₄OH or ΔΔH_het(Fe–S)'s and ΔpK_a's of SH bonds of m-G-C₆H₄SH imply that the governing structural factors for these bond scissions are similar. And, the linear correlations [r = −0.97 (g, 1 g), −0.97 (g, 2 h)] among the ΔΔH_het (Fe–O)'s or ΔΔH_het(Fe–S)'s and the substituent σ_m constants show that these correlations are in accordance with Hammett linear free energy relationships. The inductive effects of these substituents and the basis set effects influence the accuracy of ΔH_het(Fe–O)'s or ΔH_het(Fe–S)'s. The ΔΔH_het(Fe–O)'s(g) (1) and ΔΔH_het(Fe–S)'s(g)(2) follow the capto-dative Principle. The substituent effects on the Fe–O bonds are much stronger than those on the less polar Fe–S bonds. Insight from this work may help the design of more effective catalytic processes. Copyright