Chiral catalytic activities in magnetoelectrochemical etching

R. Aogaki; R. Morimoto; M. Asanuma; I. Mogi; A. Sugiyama; M. Miura; Y. Oshikiri; Y. Yamauchi

Chiral catalytic activities in magnetoelectrochemical etching

R. Aogaki, R. Morimoto, M. Asanuma, I. Mogi, A. Sugiyama, M. Miura, Y. Oshikiri, Y. Yamauchi

ナノ・ライフ創新研究機構

研究成果: Article

抜粋

Chiral catalytic activities of electrode surfaces fabricated by magnetoelectrochemical etching without oxygen adsorption in a vertical magnetohydrodynamic (MHD) flow have been theoretically examined. Then, the following points were clarified: under anionic specific adsorption, such activities arise from the screw dislocations of 2D pits. Their chirality is donated by microscopic vortexes termed micro-MHD flows, which are formed on the free surfaces covered with ionic vacancies. As a result, under upward (+) and downward (-) magnetic fields, D (dextrorotatory)- and L (levorotatory)-activities appear, respectively.

元の言語	English
ページ（範囲）	353-360
ページ数	8
ジャーナル	Magnetohydrodynamics
巻	51
発行部数	2
出版物ステータス	Published - 2015

ASJC Scopus subject areas

Electrical and Electronic Engineering
Physics and Astronomy(all)

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これを引用

Aogaki, R., Morimoto, R., Asanuma, M., Mogi, I., Sugiyama, A., Miura, M., Oshikiri, Y., & Yamauchi, Y. (2015). Chiral catalytic activities in magnetoelectrochemical etching. Magnetohydrodynamics, 51(2), 353-360.

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T1 - Chiral catalytic activities in magnetoelectrochemical etching

AU - Aogaki, R.

AU - Morimoto, R.

AU - Asanuma, M.

AU - Mogi, I.

AU - Sugiyama, A.

AU - Miura, M.

AU - Oshikiri, Y.

AU - Yamauchi, Y.

PY - 2015

Y1 - 2015

N2 - Chiral catalytic activities of electrode surfaces fabricated by magnetoelectrochemical etching without oxygen adsorption in a vertical magnetohydrodynamic (MHD) flow have been theoretically examined. Then, the following points were clarified: under anionic specific adsorption, such activities arise from the screw dislocations of 2D pits. Their chirality is donated by microscopic vortexes termed micro-MHD flows, which are formed on the free surfaces covered with ionic vacancies. As a result, under upward (+) and downward (-) magnetic fields, D (dextrorotatory)- and L (levorotatory)-activities appear, respectively.

AB - Chiral catalytic activities of electrode surfaces fabricated by magnetoelectrochemical etching without oxygen adsorption in a vertical magnetohydrodynamic (MHD) flow have been theoretically examined. Then, the following points were clarified: under anionic specific adsorption, such activities arise from the screw dislocations of 2D pits. Their chirality is donated by microscopic vortexes termed micro-MHD flows, which are formed on the free surfaces covered with ionic vacancies. As a result, under upward (+) and downward (-) magnetic fields, D (dextrorotatory)- and L (levorotatory)-activities appear, respectively.

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