共晶
晶体工程
电子供体
发光
氢键
材料科学
电子受体
分子
三元运算
结晶学
接受者
Crystal(编程语言)
化学物理
荧光
化学
机械化学
光化学
铋
晶体结构
结晶
电子转移
极地的
转化(遗传学)
电子
单晶
氢
电子定域函数
纳米技术
作者
Lei Gao,Glib V. Baryshnikov,Amjad Ali,Xianrui Zhang,Hans Ågren,Cheng Qian,Hongwei Wu
摘要
ABSTRACT Controlling solid‐state structural transitions in organic cocrystals to achieve stimulus‐responsive luminescence remains an ongoing challenge. Herein, we have developed a series of cocrystal systems exhibiting reversible crystal transformation and stimulus‐responsive luminescence via a dynamic hydrogen‐bond switching strategy. Three conformationally adaptive V‐shaped molecules (26PY, 35PY, and 13PH) serve as both hydrogen‐bonding and electron donors. Oxygen‐containing solvents (H 2 O, DMF, DMSO) merely act as hydrogen‐bond acceptors, while 1,2,4,5‐tetracyanobenzene (TCNB) or 1,5‐dinitrobenzene (DNB) function as both hydrogen‐bonding and electron acceptors. Mechanical grinding of solid mixtures composed of electron donors and acceptors in weakly polar solvents allowed the donor to rapidly capture water, yielding a blue‐emitting hydrated intermediate. Thermal dehydration then triggered conformational adjustment of the donor, promoting binary cocrystal formation through newly established hydrogen bonds between electron donors and acceptors. Furthermore, the electron donor and acceptor can directly interact with DMF or DMSO to form a ternary cocrystal instead of forming hydrated crystals, as stronger hydrogen bonds are formed. More interestingly, the donor can also form cocrystals with many nitroaromatic compounds to exhibit dynamic fluorescence. Finally, we demonstrated the applicability of these cocrystals in sensing and multi‐level anti‐counterfeiting. This work opens up new avenues for the development of stimulus‐responsive cocrystals for smart materials.
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