Significant Insights into the Origins of Reaction Barriers Governing the Addition Reactions of Olefins with Singly Bonded G13/P-Based (G13=Group 13 Element) and Al/G15-Based (G15=Group 15 Element) Molecules

The addition reactions of propylene with singly bonded G13/P-based (G13=Group 13 element) and B/G15-based (G15=Group 15 element) molecules, all yielding the >G13-G15< geometrical structure, have been analyzed theoretically using density functional theory (DFT). The current DFT findings indicat...

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Published inChemistry, an Asian journal Vol. 20; no. 10; p. e202500016
Main Authors Wu, Shi-Hao, Su, Ming-Der
Format Journal Article
LanguageEnglish
Published Germany 15.05.2025
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Abstract The addition reactions of propylene with singly bonded G13/P-based (G13=Group 13 element) and B/G15-based (G15=Group 15 element) molecules, all yielding the >G13-G15< geometrical structure, have been analyzed theoretically using density functional theory (DFT). The current DFT findings indicate that, of all singly bonded G13/P-based and Al/G15-based molecules, only Al/P-Rea can reversibly carry out the [2+2] addition reaction with propylene, both from kinetic and thermodynamic viewpoints. The activation strain model suggests that the deformation energy of the singly bonded >G13-G15< fragment is pivotal in determining the barrier heights that allow for optimal orbital interactions between G13/P-Rea, Al/G15-Rea, and propylene. Our theoretical analyses demonstrates that donor-acceptor bonding (singlet-singlet) has a greater impact compared to electron-sharing bonding (triplet-triplet) in the transition states G13/P-TS and Al/G15-TS. Sophisticated analytical frameworks suggest that the forward interaction (lone pair (G15)→p-π* of C=C in propylene) predominantly affects the addition reactions of singly bonded G13/P-Rea and Al/G15-Rea with propylene, whereas the backward interaction (p-π*(G13) ← p-π of C=C in propylene) is less influential. Our current DFT calculations, focusing on the structures and relative energetics of stationary points analyzed through the earlier mentioned advanced methods, conform to the Hammond postulate.
AbstractList The addition reactions of propylene with singly bonded G13/P-based (G13=Group 13 element) and B/G15-based (G15=Group 15 element) molecules, all yielding the >G13-G15< geometrical structure, have been analyzed theoretically using density functional theory (DFT). The current DFT findings indicate that, of all singly bonded G13/P-based and Al/G15-based molecules, only Al/P-Rea can reversibly carry out the [2+2] addition reaction with propylene, both from kinetic and thermodynamic viewpoints. The activation strain model suggests that the deformation energy of the singly bonded >G13-G15< fragment is pivotal in determining the barrier heights that allow for optimal orbital interactions between G13/P-Rea, Al/G15-Rea, and propylene. Our theoretical analyses demonstrates that donor-acceptor bonding (singlet-singlet) has a greater impact compared to electron-sharing bonding (triplet-triplet) in the transition states G13/P-TS and Al/G15-TS. Sophisticated analytical frameworks suggest that the forward interaction (lone pair (G15)→p-π* of C=C in propylene) predominantly affects the addition reactions of singly bonded G13/P-Rea and Al/G15-Rea with propylene, whereas the backward interaction (p-π*(G13) ← p-π of C=C in propylene) is less influential. Our current DFT calculations, focusing on the structures and relative energetics of stationary points analyzed through the earlier mentioned advanced methods, conform to the Hammond postulate.
Author Su, Ming-Der
Wu, Shi-Hao
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Snippet The addition reactions of propylene with singly bonded G13/P-based (G13=Group 13 element) and B/G15-based (G15=Group 15 element) molecules, all yielding the...
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Title Significant Insights into the Origins of Reaction Barriers Governing the Addition Reactions of Olefins with Singly Bonded G13/P-Based (G13=Group 13 Element) and Al/G15-Based (G15=Group 15 Element) Molecules
URI https://www.ncbi.nlm.nih.gov/pubmed/40062600
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