Organic soft crystals exhibiting spontaneously reversible mechano-responsive luminescence

IF 12.8 1区 化学 Q1 CHEMISTRY, PHYSICAL
Toshiki Mutai , Satoshi Takamizawa
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引用次数: 4

Abstract

Mechano-responsive luminescence, or mechanochromic luminescence (MCL), is a type of luminescence that can be reversibly controlled by the addition of mechanical stimuli. Organic materials exhibiting MCL have been an ongoing area of development since the early 2000s, and the number of reports into such materials has been steadily increasing. While the majority of MCL systems rely on the brittle nature of organic crystalline solids, there is a growing interest in "flexible" organic crystals that exhibit mechanical bending or shape deformation owing to their elasticity/plasticity. Such non-destructive deformed crystals may exhibit a new type of MCL that can be controlled by the magnitude of the force stress. In this review, we describe MCL systems capable of the spontaneous recovery of changes in their luminescent properties in response to the loading/unloading of mechanical stress. We particularly focus on the MCL of flexible crystals based on the density gradient of molecular packing (i.e., elastic and plastic crystals) and an emerging system known as "superelastochromism,” which is based on spontaneously reversible crystal polymorphism. This emerging research area has the potential to play an important role in the promotion of next-generation soft crystals.

Abstract Image

具有自发可逆机械响应发光的有机软晶体
机械响应发光或机械致色发光(MCL)是一种可以通过添加机械刺激来可逆控制的发光类型。自21世纪初以来,表现出MCL的有机材料一直是一个持续发展的领域,有关此类材料的报告数量一直在稳步增加。虽然大多数MCL系统依赖于有机晶体固体的脆性,但由于其弹性/可塑性而表现出机械弯曲或形状变形的“柔性”有机晶体越来越受到关注。这种非破坏性变形晶体可能会表现出一种新型的MCL,可以通过力应力的大小来控制。在这篇综述中,我们描述了MCL系统能够自发恢复其发光特性的变化,以响应机械应力的加载/卸载。我们特别关注基于分子堆积密度梯度(即弹性和塑性晶体)的柔性晶体的MCL,以及基于自发可逆晶体多态性的新兴系统“超弹性致变色”。这一新兴研究领域在促进下一代软晶体的发展方面具有重要的潜力。
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来源期刊
CiteScore
21.90
自引率
0.70%
发文量
36
审稿时长
47 days
期刊介绍: The Journal of Photochemistry and Photobiology C: Photochemistry Reviews, published by Elsevier, is the official journal of the Japanese Photochemistry Association. It serves as a platform for scientists across various fields of photochemistry to communicate and collaborate, aiming to foster new interdisciplinary research areas. The journal covers a wide scope, including fundamental molecular photochemistry, organic and inorganic photochemistry, photoelectrochemistry, photocatalysis, solar energy conversion, photobiology, and more. It provides a forum for discussing advancements and promoting collaboration in the field of photochemistry.
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