Singlet–triplet separation induced by the Pseudo Jahn–Teller effect examples: The CX2 and NX2+ (X=H, Cl) molecules

[Display omitted] •The 3B1 states of CH2, CCl2, NH2+, NCl2+ are formed because of PJTE (3Σg-+3Πu)⊗πu.•The 1A1 and 1B1 bent structures result from combined PJTE (1Δg+1Πu)⊗πu and RTE of 1Δg state.•Spin-crossover induced by PJTE explains reversed-order of singlet/triplet ground state in CH2(NH2+) and C...

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Published inComputational and theoretical chemistry Vol. 1044; pp. 94 - 100
Main Author Liu, Yang
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.09.2014
Subjects
Bending instability
Carbene
Pseudo Jahn–Teller effect
Singlet–triplet energy separation
Pseudo Jahn–Teller effect
Carbene
Singlet–triplet energy separation
Bending instability
Online AccessGet full text
ISSN2210-271X
DOI10.1016/j.comptc.2014.06.013

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Abstract [Display omitted] •The 3B1 states of CH2, CCl2, NH2+, NCl2+ are formed because of PJTE (3Σg-+3Πu)⊗πu.•The 1A1 and 1B1 bent structures result from combined PJTE (1Δg+1Πu)⊗πu and RTE of 1Δg state.•Spin-crossover induced by PJTE explains reversed-order of singlet/triplet ground state in CH2(NH2+) and CCl2(NCl2+).•Different singlet–triplet separation is rationalized by different Jahn–Teller vibronic coupling intensity. A theoretical investigation with high-level multireference methods is performed to reveal the Jahn–Teller origin of the triplet and singlet bent structures for CH2, CCl2, NH2+, and NCl2+ molecules and rationalize the relative energy ordering of the lowest singlet and triplet states. At the highest-symmetry linear configurations of these triatomic systems, the Pseudo Jahn–Teller effect (PJTE) between the ground state 3Σg- and excited state 3Πu upon the bending mode, denoted as (3Σg-+3Πu)⊗πu, is the reason of producing triplet 3B1 bent structures, and the combined PJTE of (1Δg+1Πu)⊗πu and Renner–Teller effect (RTE) of 1Δg state result in the formations of singlet 1A1 and 1B1 minima. The PJTE of “Δ–Π” plays a dominant role for the instability of degenerate Delta state which is subject to RTE. The spin-crossover induced by PJTE is responsible for the reversed order of singlet and triplet ground states in CH2/NH2+ and CCl2/NCl2+. The different singlet–triplet energy separations of those molecules can be rationalized from different Jahn–Teller vibronic coupling intensity at linear configurations.
AbstractList [Display omitted] •The 3B1 states of CH2, CCl2, NH2+, NCl2+ are formed because of PJTE (3Σg-+3Πu)⊗πu.•The 1A1 and 1B1 bent structures result from combined PJTE (1Δg+1Πu)⊗πu and RTE of 1Δg state.•Spin-crossover induced by PJTE explains reversed-order of singlet/triplet ground state in CH2(NH2+) and CCl2(NCl2+).•Different singlet–triplet separation is rationalized by different Jahn–Teller vibronic coupling intensity. A theoretical investigation with high-level multireference methods is performed to reveal the Jahn–Teller origin of the triplet and singlet bent structures for CH2, CCl2, NH2+, and NCl2+ molecules and rationalize the relative energy ordering of the lowest singlet and triplet states. At the highest-symmetry linear configurations of these triatomic systems, the Pseudo Jahn–Teller effect (PJTE) between the ground state 3Σg- and excited state 3Πu upon the bending mode, denoted as (3Σg-+3Πu)⊗πu, is the reason of producing triplet 3B1 bent structures, and the combined PJTE of (1Δg+1Πu)⊗πu and Renner–Teller effect (RTE) of 1Δg state result in the formations of singlet 1A1 and 1B1 minima. The PJTE of “Δ–Π” plays a dominant role for the instability of degenerate Delta state which is subject to RTE. The spin-crossover induced by PJTE is responsible for the reversed order of singlet and triplet ground states in CH2/NH2+ and CCl2/NCl2+. The different singlet–triplet energy separations of those molecules can be rationalized from different Jahn–Teller vibronic coupling intensity at linear configurations.
Author Liu, Yang
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Keywords Pseudo Jahn–Teller effect
Carbene
Singlet–triplet energy separation
Bending instability
Language English
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Snippet [Display omitted] •The 3B1 states of CH2, CCl2, NH2+, NCl2+ are formed because of PJTE (3Σg-+3Πu)⊗πu.•The 1A1 and 1B1 bent structures result from combined PJTE...
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elsevier
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StartPage 94
SubjectTerms Bending instability
Carbene
Pseudo Jahn–Teller effect
Singlet–triplet energy separation
Title Singlet–triplet separation induced by the Pseudo Jahn–Teller effect examples: The CX2 and NX2+ (X=H, Cl) molecules
URI https://dx.doi.org/10.1016/j.comptc.2014.06.013
Volume 1044
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