Abstract
This study investigates the effect of different substituents on the interactions between Fe(CO)4 and substituted benzynes (C6X4, X = H, F, Cl, Br, CN, Me) in Fe(CO)4(η2-C6X4) complexes using MPW1PW91-based quantum mechanical calculations. In this respect, the study evaluates the influence of electron withdrawing and donating groups on the Fe—Cbenzyne bond distances and topological properties. In addition, the frontier orbital analysis is used to illustrate the electronic structure of complexes, and the percentage composition in terms of the defined groups of frontier orbitals is evaluated. To obtain insights into the physical nature of Fe—Cbenzyne bonds, we extensively use the energy decomposition analysis (EDA) and Bader's Quantum Theory of Atoms-in-Molecules (QTAIM). To this end, in addition to the examination of the properties of bond critical points, we apply the Pendas interacting quantum atoms (IQA) scheme, which enables a rigorous and physical study of Fe—Cbenzyne bonds in these complexes. Also, electron localization function (ELF) and localized-orbital locator (LOL) calculations are used to illustrate Fe—C bonds in the investigated complexes.
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