Revealing Transient Shuttling Mechanism of Catalytic Ion Transport through Liquid-Liquid Interface

Ai Koizumi; Hirofumi Tahara; Tomonori Hirano; Akihiro Morita

doi:10.1021/acs.jpclett.9b03742

Revealing Transient Shuttling Mechanism of Catalytic Ion Transport through Liquid-Liquid Interface

Ai Koizumi, Hirofumi Tahara, Tomonori Hirano, Akihiro Morita

理学研究科・化学専攻

Tohoku University

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

10 被引用数 (Scopus)

抄録

Hard, hydrophilic ions that hardly transport over the water-oil interface by imposing external electric potential could undergo facile transport with a trace of ligand. Such phenomena, called "shuttling", are elucidated by microscopic investigation with molecular dynamics simulations. The catalytic role manifests itself in a 2-D free-energy surface within the nanometer range of the interface. The free-energy landscape clearly distinguishes the condition that the catalytic shuttling plays a vital role in the ion transport. The mechanism associated with transient complex formation at the interface is shown to be widely relevant to the ion kinetics and extends the conventional concept of facilitated ion transport.

本文言語	英語
ページ（範囲）	1584-1588
ページ数	5
ジャーナル	Journal of Physical Chemistry Letters
巻	11
号	4
DOI	https://doi.org/10.1021/acs.jpclett.9b03742
出版ステータス	出版済み - 2020 2月 20

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10.1021/acs.jpclett.9b03742

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title = "Revealing Transient Shuttling Mechanism of Catalytic Ion Transport through Liquid-Liquid Interface",

abstract = "Hard, hydrophilic ions that hardly transport over the water-oil interface by imposing external electric potential could undergo facile transport with a trace of ligand. Such phenomena, called {"}shuttling{"}, are elucidated by microscopic investigation with molecular dynamics simulations. The catalytic role manifests itself in a 2-D free-energy surface within the nanometer range of the interface. The free-energy landscape clearly distinguishes the condition that the catalytic shuttling plays a vital role in the ion transport. The mechanism associated with transient complex formation at the interface is shown to be widely relevant to the ion kinetics and extends the conventional concept of facilitated ion transport.",

author = "Ai Koizumi and Hirofumi Tahara and Tomonori Hirano and Akihiro Morita",

note = "Funding Information: The computation was performed with the supercomputers at the Research Center for Computational Science, Okazaki, Japan. This work was supported by the Grant-in-Aid for Scientific Research (no. 18H05265) by JSPS, Japan. Publisher Copyright: Copyright {\textcopyright} 2020 American Chemical Society.",

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doi = "10.1021/acs.jpclett.9b03742",

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AU - Koizumi, Ai

AU - Tahara, Hirofumi

AU - Hirano, Tomonori

AU - Morita, Akihiro

N1 - Funding Information: The computation was performed with the supercomputers at the Research Center for Computational Science, Okazaki, Japan. This work was supported by the Grant-in-Aid for Scientific Research (no. 18H05265) by JSPS, Japan. Publisher Copyright: Copyright © 2020 American Chemical Society.

PY - 2020/2/20

Y1 - 2020/2/20

N2 - Hard, hydrophilic ions that hardly transport over the water-oil interface by imposing external electric potential could undergo facile transport with a trace of ligand. Such phenomena, called "shuttling", are elucidated by microscopic investigation with molecular dynamics simulations. The catalytic role manifests itself in a 2-D free-energy surface within the nanometer range of the interface. The free-energy landscape clearly distinguishes the condition that the catalytic shuttling plays a vital role in the ion transport. The mechanism associated with transient complex formation at the interface is shown to be widely relevant to the ion kinetics and extends the conventional concept of facilitated ion transport.

AB - Hard, hydrophilic ions that hardly transport over the water-oil interface by imposing external electric potential could undergo facile transport with a trace of ligand. Such phenomena, called "shuttling", are elucidated by microscopic investigation with molecular dynamics simulations. The catalytic role manifests itself in a 2-D free-energy surface within the nanometer range of the interface. The free-energy landscape clearly distinguishes the condition that the catalytic shuttling plays a vital role in the ion transport. The mechanism associated with transient complex formation at the interface is shown to be widely relevant to the ion kinetics and extends the conventional concept of facilitated ion transport.

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Revealing Transient Shuttling Mechanism of Catalytic Ion Transport through Liquid-Liquid Interface

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