Emission Color Tuning of Inverse Type Diarylethene Crystals

IF 3 4区 化学 Q3 CHEMISTRY, PHYSICAL ChemPhotoChem Pub Date : 2024-05-06 DOI:10.1002/cptc.202400081
Prof. Daichi Kitagawa, Yuya Seto, Misato Suganuma, Dr. Tatsumoto Nakahama, Prof. Hikaru Sotome, Prof. Syoji Ito, Prof. Hiroshi Miyasaka, Prof. Seiya Kobatake
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Abstract

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.

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逆类型二迭蒽晶体的发射颜色调谐
有机发光固体材料因其在传感器材料和光波导等方面的实际应用而备受关注。我们以前曾报道过,反相型二元乙烯在晶体中表现出强烈的发射,而不会引起聚集淬灭。然而,发射颜色主要限于绿色。为了调整发射颜色,在这项工作中,我们新合成了具有缩短的π-共轭长度或极性取代基的反式二元乙烷,并研究了它们在溶液和晶体中的荧光特性。根据分子结构的不同,晶体呈现出从蓝色、绿色、黄色到红色的各种发射颜色。除了缩短π-共轭长度和分子内电荷转移特性外,CH-π相互作用等分子间相互作用也诱导了晶体发射颜色的变化。
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来源期刊
ChemPhotoChem
ChemPhotoChem Chemistry-Physical and Theoretical Chemistry
CiteScore
5.80
自引率
5.40%
发文量
165
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