Insulated conjugated bimetallopolymer with sigmoidal response by dual self-controlling system as a biomimetic material

Insulated conjugated bimetallopolymer with sigmoidal response by dual self-controlling system as a biomimetic material

Molecules can serve as biomimetic sensors, but dual self-controlling systems that involve self-activation and self-regulation are difficult to mimic. Here the authors report an insulated conjugated bimetallopolymer with cooperative multiple transition metals that phosphoresces in response to carbon...

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Main Authors: Hiroshi Masai, Takuya Yokoyama, Hiromichi V. Miyagishi, Maning Liu, Yasuhiro Tachibana, Tetsuaki Fujihara, Yasushi Tsuji, Jun Terao
Format: Article
Language:English
Published: Nature Publishing Group 2020-01-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-019-14271-2
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spelling doaj-95e4403b426d458d96efb6ce691f2baf2021-05-11T09:18:14ZengNature Publishing GroupNature Communications2041-17232020-01-011111810.1038/s41467-019-14271-2Insulated conjugated bimetallopolymer with sigmoidal response by dual self-controlling system as a biomimetic materialHiroshi Masai0Takuya Yokoyama1Hiromichi V. Miyagishi2Maning Liu3Yasuhiro Tachibana4Tetsuaki Fujihara5Yasushi Tsuji6Jun Terao7Department of Basic Science, Graduate School of Arts and Sciences, The University of TokyoDepartment of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto UniversityDepartment of Basic Science, Graduate School of Arts and Sciences, The University of TokyoSchool of Engineering, RMIT University, BundooraSchool of Engineering, RMIT University, BundooraDepartment of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto UniversityDepartment of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto UniversityDepartment of Basic Science, Graduate School of Arts and Sciences, The University of TokyoMolecules can serve as biomimetic sensors, but dual self-controlling systems that involve self-activation and self-regulation are difficult to mimic. Here the authors report an insulated conjugated bimetallopolymer with cooperative multiple transition metals that phosphoresces in response to carbon monoxide.https://doi.org/10.1038/s41467-019-14271-2
collection DOAJ
language English
format Article
sources DOAJ
author Hiroshi Masai
Takuya Yokoyama
Hiromichi V. Miyagishi
Maning Liu
Yasuhiro Tachibana
Tetsuaki Fujihara
Yasushi Tsuji
Jun Terao
spellingShingle Hiroshi Masai
Takuya Yokoyama
Hiromichi V. Miyagishi
Maning Liu
Yasuhiro Tachibana
Tetsuaki Fujihara
Yasushi Tsuji
Jun Terao
Insulated conjugated bimetallopolymer with sigmoidal response by dual self-controlling system as a biomimetic material
Nature Communications
author_facet Hiroshi Masai
Takuya Yokoyama
Hiromichi V. Miyagishi
Maning Liu
Yasuhiro Tachibana
Tetsuaki Fujihara
Yasushi Tsuji
Jun Terao
author_sort Hiroshi Masai
title Insulated conjugated bimetallopolymer with sigmoidal response by dual self-controlling system as a biomimetic material
title_short Insulated conjugated bimetallopolymer with sigmoidal response by dual self-controlling system as a biomimetic material
title_full Insulated conjugated bimetallopolymer with sigmoidal response by dual self-controlling system as a biomimetic material
title_fullStr Insulated conjugated bimetallopolymer with sigmoidal response by dual self-controlling system as a biomimetic material
title_full_unstemmed Insulated conjugated bimetallopolymer with sigmoidal response by dual self-controlling system as a biomimetic material
title_sort insulated conjugated bimetallopolymer with sigmoidal response by dual self-controlling system as a biomimetic material
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2020-01-01
description Molecules can serve as biomimetic sensors, but dual self-controlling systems that involve self-activation and self-regulation are difficult to mimic. Here the authors report an insulated conjugated bimetallopolymer with cooperative multiple transition metals that phosphoresces in response to carbon monoxide.
url https://doi.org/10.1038/s41467-019-14271-2
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