Geometry optimization of the ring-opened oxirane diradical: mechanism of the addition reaction of the triplet oxygen atom to olefins

Kizashi Yamaguchi; Satoshi Yabushita; Takayuki Fueno; Shigeki Kato; Keiji Morokuma

doi:10.1016/0009-2614(80)80053-4

Geometry optimization of the ring-opened oxirane diradical: mechanism of the addition reaction of the triplet oxygen atom to olefins

Kizashi Yamaguchi, Satoshi Yabushita, Takayuki Fueno, Shigeki Kato, Keiji Morokuma

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

53 Citations (Scopus)

Abstract

Geometry optimizations of several low-lying diradical states of the ring-opened oxirane (·CH₂CH₂O·) were performed by using the energy gradients of the UHF MINDO/3, STO-3G and 4-31G solutions. Both the STO-3G and 4-3 IG methods predict that the most stable form is the triplet state of the non-twisted σπ conformation in which the unpaired spins localized on the terminal carbon and oxygen atoms are oriented perpendicularly to each other. The singlet σσ diradical state in which both the radical-site p orbitals are coplanar with the molecular framework is only 2.3 (STO-3G) and 1.2 (4-31G) kcal/mol less stable than the triplet σπ diradical state. It is found that the geometry of the singlet σσ diradical is unique in that the C-C-O angle is noticeably small as compared with various other diradical states. Implications of these results to the mechanism of the oxirane-forming O(³P) + C₂H₄ reaction are discussed.

Original language	English
Pages (from-to)	27-30
Number of pages	4
Journal	Chemical Physics Letters
Volume	70
Issue number	1
DOIs	https://doi.org/10.1016/0009-2614(80)80053-4
Publication status	Published - 1980 Feb 15

ASJC Scopus subject areas

Physics and Astronomy(all)
Physical and Theoretical Chemistry

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10.1016/0009-2614(80)80053-4

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title = "Geometry optimization of the ring-opened oxirane diradical: mechanism of the addition reaction of the triplet oxygen atom to olefins",

abstract = "Geometry optimizations of several low-lying diradical states of the ring-opened oxirane (·CH2CH2O·) were performed by using the energy gradients of the UHF MINDO/3, STO-3G and 4-31G solutions. Both the STO-3G and 4-3 IG methods predict that the most stable form is the triplet state of the non-twisted σπ conformation in which the unpaired spins localized on the terminal carbon and oxygen atoms are oriented perpendicularly to each other. The singlet σσ diradical state in which both the radical-site p orbitals are coplanar with the molecular framework is only 2.3 (STO-3G) and 1.2 (4-31G) kcal/mol less stable than the triplet σπ diradical state. It is found that the geometry of the singlet σσ diradical is unique in that the C-C-O angle is noticeably small as compared with various other diradical states. Implications of these results to the mechanism of the oxirane-forming O(3P) + C2H4 reaction are discussed.",

author = "Kizashi Yamaguchi and Satoshi Yabushita and Takayuki Fueno and Shigeki Kato and Keiji Morokuma",

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AU - Yamaguchi, Kizashi

AU - Yabushita, Satoshi

AU - Fueno, Takayuki

AU - Kato, Shigeki

AU - Morokuma, Keiji

PY - 1980/2/15

Y1 - 1980/2/15

N2 - Geometry optimizations of several low-lying diradical states of the ring-opened oxirane (·CH2CH2O·) were performed by using the energy gradients of the UHF MINDO/3, STO-3G and 4-31G solutions. Both the STO-3G and 4-3 IG methods predict that the most stable form is the triplet state of the non-twisted σπ conformation in which the unpaired spins localized on the terminal carbon and oxygen atoms are oriented perpendicularly to each other. The singlet σσ diradical state in which both the radical-site p orbitals are coplanar with the molecular framework is only 2.3 (STO-3G) and 1.2 (4-31G) kcal/mol less stable than the triplet σπ diradical state. It is found that the geometry of the singlet σσ diradical is unique in that the C-C-O angle is noticeably small as compared with various other diradical states. Implications of these results to the mechanism of the oxirane-forming O(3P) + C2H4 reaction are discussed.

AB - Geometry optimizations of several low-lying diradical states of the ring-opened oxirane (·CH2CH2O·) were performed by using the energy gradients of the UHF MINDO/3, STO-3G and 4-31G solutions. Both the STO-3G and 4-3 IG methods predict that the most stable form is the triplet state of the non-twisted σπ conformation in which the unpaired spins localized on the terminal carbon and oxygen atoms are oriented perpendicularly to each other. The singlet σσ diradical state in which both the radical-site p orbitals are coplanar with the molecular framework is only 2.3 (STO-3G) and 1.2 (4-31G) kcal/mol less stable than the triplet σπ diradical state. It is found that the geometry of the singlet σσ diradical is unique in that the C-C-O angle is noticeably small as compared with various other diradical states. Implications of these results to the mechanism of the oxirane-forming O(3P) + C2H4 reaction are discussed.

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Geometry optimization of the ring-opened oxirane diradical: mechanism of the addition reaction of the triplet oxygen atom to olefins

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