Gas-Phase Characterization of Hypervalent Carbon Compounds Bearing 7-6-7-Ring Skeleton: Penta- versus Tetra-Coordinate Isomers

Satoru Muramatsu; Keijiro Ohshimo; Yuan Shi; Motoki Kida; Rong Shang; Yohsuke Yamamoto; Fuminori Misaizu; Yoshiya Inokuchi

doi:10.1002/chem.202203163

Gas-Phase Characterization of Hypervalent Carbon Compounds Bearing 7-6-7-Ring Skeleton: Penta- versus Tetra-Coordinate Isomers

Satoru Muramatsu, Keijiro Ohshimo, Yuan Shi, Motoki Kida, Rong Shang, Yohsuke Yamamoto, Fuminori Misaizu, Yoshiya Inokuchi

理学研究科・化学専攻

研究成果: Article › 査読

抄録

In this study, we afford explicit characterizations of the electronic and geometrical structures of recently reported hypervalent penta-coordinate carbon compounds by using gas-phase characterization techniques: photodissociation spectroscopy (PDS) and ion mobility-mass spectrometry (IM–MS). In particular for a compound with moderately electron-donating ligands, bearing p-methylthiophenyl substituents, the coexistence of tetra- and penta-coordinate isomers is confirmed, consistent with solution characterizations. It is in sharp contrast to the exclusive tetra-coordinate form (with normal valence of the central carbon atom) in the single crystal. This suggests that a non-polar environment makes the penta-coordinate structure thermodynamically most stable. This delicate difference between the tetra- and penta-coordinate structures, which depends on the environment, is a close reflection of the lower activation barrier of the S_N2 reaction found in neutral solvent or gas-phase reactions.

本文言語	English
論文番号	e202203163
ジャーナル	Chemistry - A European Journal
巻	29
号	11
DOI	https://doi.org/10.1002/chem.202203163
出版ステータス	Published - 2023 2月 21

ASJC Scopus subject areas

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有機化学

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10.1002/chem.202203163

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title = "Gas-Phase Characterization of Hypervalent Carbon Compounds Bearing 7-6-7-Ring Skeleton: Penta- versus Tetra-Coordinate Isomers",

abstract = "In this study, we afford explicit characterizations of the electronic and geometrical structures of recently reported hypervalent penta-coordinate carbon compounds by using gas-phase characterization techniques: photodissociation spectroscopy (PDS) and ion mobility-mass spectrometry (IM–MS). In particular for a compound with moderately electron-donating ligands, bearing p-methylthiophenyl substituents, the coexistence of tetra- and penta-coordinate isomers is confirmed, consistent with solution characterizations. It is in sharp contrast to the exclusive tetra-coordinate form (with normal valence of the central carbon atom) in the single crystal. This suggests that a non-polar environment makes the penta-coordinate structure thermodynamically most stable. This delicate difference between the tetra- and penta-coordinate structures, which depends on the environment, is a close reflection of the lower activation barrier of the SN2 reaction found in neutral solvent or gas-phase reactions.",

keywords = "S2 reaction transition state, hypervalent compounds, ion-mobility mass spectrometry, laser spectroscopy, photodissociation spectroscopy",

author = "Satoru Muramatsu and Keijiro Ohshimo and Yuan Shi and Motoki Kida and Rong Shang and Yohsuke Yamamoto and Fuminori Misaizu and Yoshiya Inokuchi",

note = "Funding Information: This work was financially supported by JSPS KAKENHI (Grant Nos. 16H04098 (Y.I.), JP16K05641 (K.O.), JP19K15507 (S.M.), JP20H00374 (Y.I.), JP21H05418 (K.O.), and JP22K14649 (S.M.)), the Futaba Foundation, the Institute for Quantum Chemical Exploration, the Salt Science Research Foundation (Grant Nos. 1916, 2022, and 2116), and the Electronic Technology Research Foundation of Chugoku. Calculations were partly performed using the Research Center for Computational Science, Okazaki, Japan. Publisher Copyright: {\textcopyright} 2022 Wiley-VCH GmbH.",

year = "2023",

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doi = "10.1002/chem.202203163",

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T1 - Gas-Phase Characterization of Hypervalent Carbon Compounds Bearing 7-6-7-Ring Skeleton

T2 - Penta- versus Tetra-Coordinate Isomers

AU - Muramatsu, Satoru

AU - Ohshimo, Keijiro

AU - Shi, Yuan

AU - Kida, Motoki

AU - Shang, Rong

AU - Yamamoto, Yohsuke

AU - Misaizu, Fuminori

AU - Inokuchi, Yoshiya

N1 - Funding Information: This work was financially supported by JSPS KAKENHI (Grant Nos. 16H04098 (Y.I.), JP16K05641 (K.O.), JP19K15507 (S.M.), JP20H00374 (Y.I.), JP21H05418 (K.O.), and JP22K14649 (S.M.)), the Futaba Foundation, the Institute for Quantum Chemical Exploration, the Salt Science Research Foundation (Grant Nos. 1916, 2022, and 2116), and the Electronic Technology Research Foundation of Chugoku. Calculations were partly performed using the Research Center for Computational Science, Okazaki, Japan. Publisher Copyright: © 2022 Wiley-VCH GmbH.

PY - 2023/2/21

Y1 - 2023/2/21

N2 - In this study, we afford explicit characterizations of the electronic and geometrical structures of recently reported hypervalent penta-coordinate carbon compounds by using gas-phase characterization techniques: photodissociation spectroscopy (PDS) and ion mobility-mass spectrometry (IM–MS). In particular for a compound with moderately electron-donating ligands, bearing p-methylthiophenyl substituents, the coexistence of tetra- and penta-coordinate isomers is confirmed, consistent with solution characterizations. It is in sharp contrast to the exclusive tetra-coordinate form (with normal valence of the central carbon atom) in the single crystal. This suggests that a non-polar environment makes the penta-coordinate structure thermodynamically most stable. This delicate difference between the tetra- and penta-coordinate structures, which depends on the environment, is a close reflection of the lower activation barrier of the SN2 reaction found in neutral solvent or gas-phase reactions.

AB - In this study, we afford explicit characterizations of the electronic and geometrical structures of recently reported hypervalent penta-coordinate carbon compounds by using gas-phase characterization techniques: photodissociation spectroscopy (PDS) and ion mobility-mass spectrometry (IM–MS). In particular for a compound with moderately electron-donating ligands, bearing p-methylthiophenyl substituents, the coexistence of tetra- and penta-coordinate isomers is confirmed, consistent with solution characterizations. It is in sharp contrast to the exclusive tetra-coordinate form (with normal valence of the central carbon atom) in the single crystal. This suggests that a non-polar environment makes the penta-coordinate structure thermodynamically most stable. This delicate difference between the tetra- and penta-coordinate structures, which depends on the environment, is a close reflection of the lower activation barrier of the SN2 reaction found in neutral solvent or gas-phase reactions.

KW - S2 reaction transition state

KW - hypervalent compounds

KW - ion-mobility mass spectrometry

KW - laser spectroscopy

KW - photodissociation spectroscopy

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