Analysis of pseudo jahn–teller distortion based on natural bond orbital theory: Case study for silicene

Bhattacharjee, Rameswar; Majumder, Tirthick; Datta, Ayan

doi:10.1002/jcc.25815

Cited by 16 publications

(5 citation statements)

References 57 publications

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“…A similar phenomenon is observed in silicene and phosphorene. 44,45 The optimized unit contains 18 carbon atoms with lattice parameters of a = b = 6.62 Å and thickness of h = 1.26 Å, which are in good agreement with previous results (a = b = 6.64 Å and h = 1.24 Å). 31 Furthermore, the absence of imaginary frequency modes throughout the entire Brillouin zone confirms the dynamic stability of graphene+ (Fig.…”

Section: Structural and Electronic Propertiessupporting

confidence: 89%

Two-dimensional graphene+ as an anode material for calcium-ion batteries with ultra-high capacity: a first-principles study

Yang,

Ma,

et al. 2024

Phys. Chem. Chem. Phys.

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Section: Structural and Electronic Propertiessupporting

confidence: 89%

Two-dimensional graphene+ as an anode material for calcium-ion batteries with ultra-high capacity: a first-principles study

Yang,

Ma,

et al. 2024

Phys. Chem. Chem. Phys.

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“…For hexasilabenzene, Si 6 H 6 , calculated using the same method the sum of internal angles is 708.32°, indicating large distortion. The nonplanarity of Si 6 H 6 is explained in the literature on the basis of pseudo-Jahn–Teller effect/second-order donor–acceptor interactions. − The Si–Si bond lengths in 6 are equalized and are slightly more than those of the building block, 2 . The HOMO–LUMO gap is 4.5 eV.…”

mentioning

confidence: 99%

Lewis Base/Acid Coordination Stabilizes Planar 6π Aromatic Si₆/P₆

Parambil

Perumal

2020

Organometallics

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We have developed a strategy for designing planar all-Si and all-P 6π aromatics based on experimentally available building blocks. A Si6 hexagon coordinated by three phosphines at the 1,3,5-positions, Si6(PH3)3, which has three lone-pair-carrying Si atoms is nearly planar and aromatic. Replacing PH3 by NH3 induces perfect planarity. Two-electron reduction of Si6(PH3)3 results in doubly aromatic Si6 2– with the dissociation of Si–P bonds, instead of a nonaromatic system such as the benzene dianion. Similarly to base-coordinated Si6, Lewis acid coordination to P6 can give planar 6π aromatics. P6(BH3)3 is a nearly planar minimum. Replacing BH3 with a stronger Lewis acid, B(CN)3, gives a perfectly planar structure. A PH3-coordinated all-Si diene resembling butadiene is predicted. A concerted 4 + 2 cycloaddition between this all-Si diene and ethylene is proposed here and has a computed barrier of only 22 kcal/mol.

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“…Simultaneously, one electron pair from the HOMO of CS 2 is transferred back into the LUMO of G13/G15-Rea . Accordingly, this kind of electronic interaction is known as the classical singlet–singlet (S–S) interaction or the “donor–acceptor interaction.” In the bonding model (II), one open-shell triplet G13/G15-Rea FLP-type molecule interacts with one open-shell triplet CS 2 . Notably, the overall reaction is the singlet state.…”

Section: Reactivity Models Of Flps Reacting With Cs2mentioning

confidence: 99%

Understanding the Reactivity of Combination Reactions of Intramolecular Geminal Group 13 Element/Phosphorus and Gallium/Group 15 Element Frustrated Lewis Pairs with CS₂

Mei

2022

Inorg. Chem.

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The reactions of CS 2 captured by intramolecular geminal G13/Pbased (G13 = group 13 elements) and Ga/G15-based (G15 = group 15 elements) frustrated Lewis pairs have been theoretically examined by using density functional theory (DFT) computations. With regard to the nine FLP-related compounds, our DFT calculated results reveal that only Al/P-Rea and Ga/P-Rea can kinetically and thermodynamically precede the energetically feasible combination reactions with CS 2 to form the five-membered heterocyclic adducts. Our activation strain model analyses on the nine aforementioned model molecules indicate that the atomic radius of the Lewis acceptor (G13) and the Lewis donor (G15) plays a role in controlling their barrier heights to obtain good orbital overlaps among G13/P-Rea, Ga/G15-Rea, and CS 2 . Our theoretical observations based on the energy decomposition analysis−natural orbitals for chemical valence (EDA−NOCV) approach strongly indicate that the donor−acceptor bonding (i.e., singlet−singlet bonding) rather than the electron-sharing bonding (i.e., triplet−triplet bonding) plays a central role in determining the bonding conditions of the transition states, G13/P-TS and Ga/G15-TS. In addition, the theoretical evidence obtained by the frontier molecular orbital theory and EDA−NOCV analyses reveals that the best description for the bonding natures of the combination reactions of intramolecular geminal G13/P-Rea and Ga/G15-Rea with CS 2 is the lone pair(G15) → p−π*(C) interaction rather than the p−π*(G13) ← p−π(S) interaction. Moreover, our present DFT computations concerning the calculated structures and corresponding relative energetics of the stationary points connected with the aforementioned sophisticated approaches are in accordance with the Hammond postulate.

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Analysis of pseudo jahn–teller distortion based on natural bond orbital theory: Case study for silicene

Cited by 16 publications

References 57 publications

Two-dimensional graphene+ as an anode material for calcium-ion batteries with ultra-high capacity: a first-principles study

Two-dimensional graphene+ as an anode material for calcium-ion batteries with ultra-high capacity: a first-principles study

Lewis Base/Acid Coordination Stabilizes Planar 6π Aromatic Si₆/P₆

Understanding the Reactivity of Combination Reactions of Intramolecular Geminal Group 13 Element/Phosphorus and Gallium/Group 15 Element Frustrated Lewis Pairs with CS₂

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Analysis of pseudo jahn–teller distortion based on natural bond orbital theory: Case study for silicene

Cited by 16 publications

References 57 publications

Two-dimensional graphene+ as an anode material for calcium-ion batteries with ultra-high capacity: a first-principles study

Two-dimensional graphene+ as an anode material for calcium-ion batteries with ultra-high capacity: a first-principles study

Lewis Base/Acid Coordination Stabilizes Planar 6π Aromatic Si6/P6

Understanding the Reactivity of Combination Reactions of Intramolecular Geminal Group 13 Element/Phosphorus and Gallium/Group 15 Element Frustrated Lewis Pairs with CS2

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Product

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Lewis Base/Acid Coordination Stabilizes Planar 6π Aromatic Si₆/P₆

Understanding the Reactivity of Combination Reactions of Intramolecular Geminal Group 13 Element/Phosphorus and Gallium/Group 15 Element Frustrated Lewis Pairs with CS₂