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单发色团双峰分子固体的光机械变色和机械变色荧光:多色荧光图案化

Photomechanochromic mechanochromic fluorescence of a unichromophoric bimodal molecular solid: multicolour fluorescence patterning.

作者信息

Hsu Li-Yun, Maity Subhendu, Matsunaga Yuki, Hsu Ying-Feng, Liu Yi-Hung, Peng Shie-Ming, Shinmyozu Teruo, Yang Jye-Shane

机构信息

Department of Chemistry , National Taiwan University , Taipei , Taiwan 10617 . Email:

出版信息

Chem Sci. 2018 Oct 2;9(48):8990-9001. doi: 10.1039/c8sc03740j. eCollection 2018 Dec 28.

DOI:10.1039/c8sc03740j
PMID:30647891
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6301206/
Abstract

Mechanofluorochromism (MFC) of molecular solids generally results from the variation of intermolecular interactions induced by external mechanical forces. However, the use of internal photomechanical forces to perturb intermolecular interactions for multicolour fluorescence responses has yet to be demonstrated. Herein we report a unichromophoric anthracene-pentiptycene derivative () that displays both MFC and photomechanofluorochromism (PMFC), which lead to various fluorescence colours including red-green-blue (RGB) and near-pure white-light emission. Compound crystallizes in two polymorphs, the yellow (Y) and green (G) emissive forms, in which the pairwise stacked anthracene groups undergo [4 + 4] photodimerization to form the UV (black) emissive photodimer and meanwhile exert photomechanical stresses on the neighbouring molecules. While the photomechanical stresses cause an excimer-to-monomer switching that results in a blue fluorescent state for the Y form, a red-emissive "super dimer" is photomechanically produced for the G form. The recovery of the Y form demands heating, but the G form could be restored by selective photoexcitation of the super dimer. X-ray crystal structures of the Y and G forms and the photodimer generated through single-crystal-to-single-crystal transformation provide a clue to the origins of polymorph-dependent PMFC. The corresponding MFC and mechano-activated vapofluorochromism (VFC) of also shed light on the structure-property relationship. The ability to spatially and temporally control the fluorochromicity of is demonstrated by a series of multicolour fluorescence patterning of "angelfishes".

摘要

分子固体的机械荧光变色(MFC)通常源于外部机械力引起的分子间相互作用的变化。然而,利用内部光机械力扰动分子间相互作用以实现多色荧光响应尚未得到证实。在此,我们报道了一种单发色团蒽 - 五并苯衍生物(),它同时表现出MFC和光机械荧光变色(PMFC),可产生包括红 - 绿 - 蓝(RGB)和近纯白光发射在内的多种荧光颜色。化合物 以两种多晶型形式结晶,即黄色(Y)发射形式和绿色(G)发射形式,其中成对堆叠的蒽基团发生[4 + 4]光二聚化形成紫外(黑色)发射的光二聚体,同时对相邻分子施加光机械应力。虽然光机械应力导致激基缔合物到单体的转变,使Y形式呈现蓝色荧光状态,但对于G形式,光机械作用产生了红色发射的“超级二聚体”。Y形式的恢复需要加热,而G形式可通过对超级二聚体进行选择性光激发来恢复。Y和G形式以及通过单晶到单晶转变生成的光二聚体的X射线晶体结构为多晶型依赖性PMFC的起源提供了线索。 的相应MFC和机械激活的气相荧光变色(VFC)也揭示了结构 - 性质关系。通过一系列“神仙鱼”的多色荧光图案展示了在空间和时间上控制 荧光变色的能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ab7b/6301206/07b07722baf0/c8sc03740j-f10.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ab7b/6301206/9246846ab282/c8sc03740j-f7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ab7b/6301206/fbc18a76ba06/c8sc03740j-s1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ab7b/6301206/d575051cc810/c8sc03740j-f8.jpg
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