Complementary color tuning by HC1 via phosphorescence-to-fluorescence conversion on insulated metallopolymer film and its light-induced acceleration

Shunichi Kaneko; Hiroshi Masai; Takuya Yokoyama; Maning Liu; Yasuhiro Tachibana; Tetsuaki Fujihara; Yasushi Tsuji; Jun Terao

doi:10.3390/polym12010244

Complementary color tuning by HC1 via phosphorescence-to-fluorescence conversion on insulated metallopolymer film and its light-induced acceleration

Shunichi Kaneko, Hiroshi Masai, Takuya Yokoyama, Maning Liu, Yasuhiro Tachibana, Tetsuaki Fujihara, Yasushi Tsuji, Jun Terao

Forskningsoutput: Tidskriftsbidrag › Artikel i vetenskaplig tidskrift › Peer review

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An insulated metallopolymer that undergoes phosphorescence-to-fluorescence conversion between complementary colors by an acid-stimulus is proposed as a color-tunable material. A Pt-based phosphorescent metallopolymer, where the conjugated polymeric backbone is insulated by a cyclodextrin, is depolymerized by HCl via acidic cleavage of Pt-acetylide bonds to form a fluorescent monomer. The insulation enables phosphorescence-to-fluorescence conversion to take place in the solid film. Rapid color change was achieved by accelerating the reaction between the metallopolymer and HCl by UV irradiation. These approaches are expected to provide new guidelines for the development of next-generation color-tunable materials and printable sensors based on precise molecular engineering.

Originalspråk	engelska
Artikelnummer	244
Tidskrift	Polymers
Volym	12
Nummer	1
DOI	https://doi.org/10.3390/polym12010244
Status	Published - 2020 jan. 1
Externt publicerad	Ja

Ämnesklassifikation (UKÄ)

Textil-, gummi- och polymermaterial

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10.3390/polym12010244Licens: CC BY

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title = "Complementary color tuning by HC1 via phosphorescence-to-fluorescence conversion on insulated metallopolymer film and its light-induced acceleration",

abstract = "An insulated metallopolymer that undergoes phosphorescence-to-fluorescence conversion between complementary colors by an acid-stimulus is proposed as a color-tunable material. A Pt-based phosphorescent metallopolymer, where the conjugated polymeric backbone is insulated by a cyclodextrin, is depolymerized by HCl via acidic cleavage of Pt-acetylide bonds to form a fluorescent monomer. The insulation enables phosphorescence-to-fluorescence conversion to take place in the solid film. Rapid color change was achieved by accelerating the reaction between the metallopolymer and HCl by UV irradiation. These approaches are expected to provide new guidelines for the development of next-generation color-tunable materials and printable sensors based on precise molecular engineering.",

keywords = "Conjugated polymer, Cyclodextrin, Fluorescence, Phosphorescence, Platinum acetylide, Rotaxane, White emission",

author = "Shunichi Kaneko and Hiroshi Masai and Takuya Yokoyama and Maning Liu and Yasuhiro Tachibana and Tetsuaki Fujihara and Yasushi Tsuji and Jun Terao",

year = "2020",

month = jan,

day = "1",

doi = "10.3390/polym12010244",

language = "English",

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journal = "Polymers",

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T1 - Complementary color tuning by HC1 via phosphorescence-to-fluorescence conversion on insulated metallopolymer film and its light-induced acceleration

AU - Kaneko, Shunichi

AU - Masai, Hiroshi

AU - Yokoyama, Takuya

AU - Liu, Maning

AU - Tachibana, Yasuhiro

AU - Fujihara, Tetsuaki

AU - Tsuji, Yasushi

AU - Terao, Jun

PY - 2020/1/1

Y1 - 2020/1/1

N2 - An insulated metallopolymer that undergoes phosphorescence-to-fluorescence conversion between complementary colors by an acid-stimulus is proposed as a color-tunable material. A Pt-based phosphorescent metallopolymer, where the conjugated polymeric backbone is insulated by a cyclodextrin, is depolymerized by HCl via acidic cleavage of Pt-acetylide bonds to form a fluorescent monomer. The insulation enables phosphorescence-to-fluorescence conversion to take place in the solid film. Rapid color change was achieved by accelerating the reaction between the metallopolymer and HCl by UV irradiation. These approaches are expected to provide new guidelines for the development of next-generation color-tunable materials and printable sensors based on precise molecular engineering.

AB - An insulated metallopolymer that undergoes phosphorescence-to-fluorescence conversion between complementary colors by an acid-stimulus is proposed as a color-tunable material. A Pt-based phosphorescent metallopolymer, where the conjugated polymeric backbone is insulated by a cyclodextrin, is depolymerized by HCl via acidic cleavage of Pt-acetylide bonds to form a fluorescent monomer. The insulation enables phosphorescence-to-fluorescence conversion to take place in the solid film. Rapid color change was achieved by accelerating the reaction between the metallopolymer and HCl by UV irradiation. These approaches are expected to provide new guidelines for the development of next-generation color-tunable materials and printable sensors based on precise molecular engineering.

KW - Conjugated polymer

KW - Cyclodextrin

KW - Fluorescence

KW - Phosphorescence

KW - Platinum acetylide

KW - Rotaxane

KW - White emission

U2 - 10.3390/polym12010244

DO - 10.3390/polym12010244

M3 - Article

AN - SCOPUS:85078344383

SN - 2073-4360

VL - 12

JO - Polymers

JF - Polymers

IS - 1

M1 - 244

ER -

Complementary color tuning by HC1 via phosphorescence-to-fluorescence conversion on insulated metallopolymer film and its light-induced acceleration

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