Reduction-Induced Self-Propelled Oscillatory Motion of Perylenediimides on Water

Lara Rae Holstein; Nobuhiko J. Suematsu; Masayuki Takeuchi; Koji Harano; Taisuke Banno; Atsuro Takai

doi:10.1002/anie.202410671

論文 Reduction-Induced Self-Propelled Oscillatory Motion of Perylenediimides on Water

Lara Rae Holstein (Research Center for Macromolecules and Biomaterials/Macromolecules Field/Molecular Design and Function Group, National Institute for Materials Science) ; Nobuhiko J. Suematsu (Meiji University) ; Masayuki Takeuchi (Research Center for Macromolecules and Biomaterials/Macromolecules Field/Molecular Design and Function Group, National Institute for Materials Science) ; Koji Harano (Center for Basic Research on Materials/Advanced Materials Characterization Field/Electron Microscopy Group, National Institute for Materials Science) ; Taisuke Banno (Keio University) ; Atsuro Takai (Research Center for Macromolecules and Biomaterials/Macromolecules Field/Molecular Design and Function Group, National Institute for Materials Science)

Angew Chem Int Ed - 2024 - Holstein - Reduction‐Induced Self‐Propelled Oscillatory Motion of Perylenediimides on Water.pdf

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Lara Rae Holstein, Nobuhiko J. Suematsu, Masayuki Takeuchi, Koji Harano, Taisuke Banno, Atsuro Takai. Reduction-Induced Self-Propelled Oscillatory Motion of Perylenediimides on Water. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION. 2024, 63 (46), . https://doi.org/10.1002/anie.202410671

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(abstract)

The emergence of macroscopic self-propelled oscillatory motion based on molecular design has attracted continual attention in relation to autonomous systems in living organisms. Herein, a series of perylenediimides (PDIs) with various imide side chains was prepared to explore the impact of molecular design and alignment on the self-propelled motion at the air–water interface. When placed on an aqueous solution containing a reductant, a solid disk of neutral PDI was reduced to form the water soluble, surface-active PDI dianion species, which induces a surface tension gradient in the vicinity of the disk for self-propelled motion. We found that centimeter-scale oscillatory motion could be elicited by controlling the supply rate of PDI dianion species through the reductant concentration and the structure of imide side chains. Furthermore, we found that the onset and speed of the self-propelled motion could be changed by the crystallinity of PDI at the water surface. This design principle using π-conjugated molecules and their self-assemblies could advance self-propelled, non-equilibrium systems powered by chemical energy.

権利情報:

Creative Commons BY-NC-ND Attribution-NonCommercial-NoDerivs 4.0 International

キーワード: Perylene dyes, Nonequilibrium processes, Reduction, Marangoni flow, Oscillatory motion

刊行年月日: 2024-11-11

出版者: Wiley-Blackwell

掲載誌:

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (ISSN: 14337851) vol. 63 issue. 46

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原稿種別: 出版者版 (Version of record)

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公開URL: https://doi.org/10.1002/anie.202410671

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更新時刻: 2024-11-07 16:30:23 +0900

MDRでの公開時刻: 2024-11-07 16:30:24 +0900

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