Emission Color Tuning of Inverse Type Diarylethene Crystals

Organic luminescent solid materials have attracted much attention due to practical applications such as sensor materials and optical waveguides. We have previously reported that inverse type diarylethenes exhibit strong emission in crystal without causing aggregation‐caused quenching. However, the e...

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Veröffentlicht in:	ChemPhotoChem 2024-09, Vol.8 (9), p.n/a
Hauptverfasser:	Kitagawa, Daichi, Seto, Yuya, Suganuma, Misato, Nakahama, Tatsumoto, Sotome, Hikaru, Ito, Syoji, Miyasaka, Hiroshi, Kobatake, Seiya
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Sprache:	eng
Schlagworte:	Crystal Diarylethene Emission color tuning Inverse type Solid emissive materials
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creator	Kitagawa, Daichi Seto, Yuya Suganuma, Misato Nakahama, Tatsumoto Sotome, Hikaru Ito, Syoji Miyasaka, Hiroshi Kobatake, Seiya
description	Organic luminescent solid materials have attracted much attention due to practical applications such as sensor materials and optical waveguides. We have previously reported that inverse type diarylethenes exhibit strong emission in crystal without causing aggregation‐caused quenching. However, the emission color was limited to mainly green. To tune the emission color, in this work, we newly synthesized inverse type diarylethenes having a shortened π‐conjugation length or a polar substituent and investigated their fluorescence properties in solutions and crystals. The crystals exhibited various emission colors from blue, green, yellow to red depending on the molecular structure. The emission color changes of the crystals were induced by the intermolecular interactions such as CH‐π interactions in addition to the shortened π‐conjugation length and the intramolecular charge transfer character. Inverse type diarylethenes are synthesized to diversify the emission colors in crystalline state. The crystals exhibited various emission colors from blue, green, yellow to red depending on the molecular structure. The change in the emission color of the crystal was caused by shortening of the π conjugation length and intramolecular charge transfer properties, as well as intermolecular interactions such as CH‐π interaction.
doi_str_mv	10.1002/cptc.202400081
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We have previously reported that inverse type diarylethenes exhibit strong emission in crystal without causing aggregation‐caused quenching. However, the emission color was limited to mainly green. To tune the emission color, in this work, we newly synthesized inverse type diarylethenes having a shortened π‐conjugation length or a polar substituent and investigated their fluorescence properties in solutions and crystals. The crystals exhibited various emission colors from blue, green, yellow to red depending on the molecular structure. The emission color changes of the crystals were induced by the intermolecular interactions such as CH‐π interactions in addition to the shortened π‐conjugation length and the intramolecular charge transfer character. Inverse type diarylethenes are synthesized to diversify the emission colors in crystalline state. The crystals exhibited various emission colors from blue, green, yellow to red depending on the molecular structure. 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subjects	Crystal Diarylethene Emission color tuning Inverse type Solid emissive materials
title	Emission Color Tuning of Inverse Type Diarylethene Crystals
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