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  1. 原著論文

Formation of nanowires via single particle triggered linear polymerization of solid-state aromatic molecules

https://repo.qst.go.jp/records/47920
https://repo.qst.go.jp/records/47920
6298e0b4-0c06-495b-95e2-4b1b78533a53
Item type 学術雑誌論文 / Journal Article(1)
公開日 2017-05-01
タイトル
タイトル Formation of nanowires via single particle triggered linear polymerization of solid-state aromatic molecules
言語
言語 eng
資源タイプ
資源タイプ識別子 http://purl.org/coar/resource_type/c_6501
資源タイプ journal article
アクセス権
アクセス権 metadata only access
アクセス権URI http://purl.org/coar/access_right/c_14cb
著者 Horio, (Kyoto Univ.) Akifumi

× Horio, (Kyoto Univ.) Akifumi

WEKO 481097

Horio, (Kyoto Univ.) Akifumi

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Sakurai, (Kyoto Univ.) Tsuneaki

× Sakurai, (Kyoto Univ.) Tsuneaki

WEKO 481098

Sakurai, (Kyoto Univ.) Tsuneaki

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B., V. S. Lakshmi (Inter Univ. Accelerator Centre

× B., V. S. Lakshmi (Inter Univ. Accelerator Centre

WEKO 481099

B., V. S. Lakshmi (Inter Univ. Accelerator Centre

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India) G.

× India) G.

WEKO 481100

India) G.

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Kumar, Avasthi (Inter Univ. Accelerator Centre

× Kumar, Avasthi (Inter Univ. Accelerator Centre

WEKO 481101

Kumar, Avasthi (Inter Univ. Accelerator Centre

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India) Devesh

× India) Devesh

WEKO 481102

India) Devesh

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Sugimoto, Masaki

× Sugimoto, Masaki

WEKO 481103

Sugimoto, Masaki

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Yamaki, Tetsuya

× Yamaki, Tetsuya

WEKO 481104

Yamaki, Tetsuya

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Seki, (Kyoto Univ.) Shu

× Seki, (Kyoto Univ.) Shu

WEKO 481105

Seki, (Kyoto Univ.) Shu

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杉本 雅樹

× 杉本 雅樹

WEKO 481106

en 杉本 雅樹

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八巻 徹也

× 八巻 徹也

WEKO 481107

en 八巻 徹也

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内容記述タイプ Abstract
内容記述 Nanowires occupy a prestigious place in nanoelectronics, nanomechanics, and biomimetics. Although there are notable methods to grow nanowires via self-assembly, there is a key drawback in the need to find out the specific conditions appropriate for each system. In this sense, universal techniques to fabricate such nanowires from various organic materials have been sought for the continued progress of the related research field. Here we report one of the promising and facile methodologies to quantitatively produce nanowires with controlled geometrical parameters. In this method, referred to as “Single Particle-Triggered Linear Polymerization (STLiP)”, organic thin films on a supporting substrate were irradiated with high-energy charged particles, accelerated by particle accelerators. Each particle penetrates from the top of the films to the substrate while gradually releasing kinetic energy along its trajectory (ion track), generating reactive intermediates such as radical species that eventually induce propagation reactions. The resulting polymerized products were integrated into nanowires with uniform diameter and length that can be isolated via development with appropriate organic solvents. Considering the widely applicable nature of STLiP to organic materials, the present technique opens a new door for access to a number of functional nanowires and their assembly.
書誌情報 Nanoscale

巻 8, 号 32, p. 14925-14931, 発行日 2016-08
出版者
出版者 ROYAL SOCIETY CHEMSTRY
DOI
識別子タイプ DOI
関連識別子 10.1039/c6nr03297d
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