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Triel Bonds between BH 3 /C 5 H 4 BX and M(MDA) 2 (X = H, CN, F, CH 3 , NH 2 ; M = Ni, Pd, Pt, MDA = Enolated Malondialdehyde) and Group 10 Transition Metal Electron Donors.

Xin WangZhihao NiuSean A C McDowellQing-Zhong Li
Published in: Molecules (Basel, Switzerland) (2024)
A systematic theoretical study was conducted on the triel bonds (TrB) within the BH 3 ∙∙∙M(MDA) 2 and C 5 H 4 BX∙∙∙M(MDA) 2 (M = Ni, Pd, Pt, X = H, CN, F, CH 3 , NH 2 , MDA = enolated malondialdehyde) complexes, with BH 3 and C 5 H 4 BX acting as the electron acceptors and the square-coordinated M(MDA) 2 acting as the electron donor. The interaction energies of these systems range between -4.71 and -33.18 kcal/mol. The larger the transition metal center M, the greater the enhancement of the TrB, with σ-hole TrBs found to be stronger than π-hole TrBs. In the σ-hole TrB complex, an electron-withdrawing substituent on the C opposite to the B atom enhances the TrB, while an electron-donating substituent has little effect on the strength of TrB in the Pd and Pt complexes but enhances the TrB in the Ni-containing complexes. The van der Waals interaction plays an important role in stabilizing these binary systems, and its contribution diminishes with increasing M size. The orbital effect within these systems is largely due to charge transfer from the d z 2 orbital of M into the empty p z orbital of B.
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