Agostic Interactions in Early Transition-Metal Complexes: Roles of Hyperconjugation,Dispersion, and Steric Effect |
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| Authors: | Xuhui Lin Prof. Dr. Wei Wu Prof. Dr. Yirong Mo |
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| Affiliation: | 1. The State Key Laboratory of Physical Chemistry of Solid Surfaces, iChEM, Fujian Provincial Key Laboratory of Theoretical and Computational Chemistry and College of Chemistry and Chemical, Engineering, Xiamen University, Xiamen, Fujian, 361005 P.R. China;2. Department of Chemistry, Western Michigan University, Kalamazoo, MI, 49008 USA |
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| Abstract: | The agostic interaction is a ubiquitous phenomenon in catalytic processes and transition-metal complexes, and hyperconjugation has been well recognized as its origin. Yet, recent studies showed that either short-range London dispersion or structural constraints could be the driving force, although proper evaluation of the role of hyperconjugation therein is needed. Herein, a simple variant of valence bond theory was employed to study a few exemplary Ti complexes with α- or β-agostic interactions and interpret the agostic effect in terms of the steric effect, hyperconjugation, and dispersion. For the complexes [MeTiCl3(dmpe)] and [MeTiCl3(dhpe)] with α-agostic interactions, hyperconjugation plays the dominant role with comparable magnitudes in both systems, but dispersion is solely responsible for the stronger agostic interaction in the former compared with the latter. For the complexes [EtTiCl3(dmpe)] and [EtTiCl3(dhpe)] with β-agostic interactions, however, hyperconjugation and dispersion play comparable roles, and the weaker steric repulsion leads to a stronger agostic effect in the former than in the latter. Thus, the present study clarifies the variable and sensitive roles of steric, hyperconjugative, and dispersion interactions in the agostic interaction. |
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| Keywords: | agostic interactions dispersion hyperconjugation steric hindrance transition metals |
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