基于苯基丁二烯酯分子晶体的尺寸减小技术：通过 E-Z 光异构化促进晶相到液相的转变

Materials Pub Date : 2024-07-24 DOI:10.3390/ma17153664

Yu-Hao Li, Min Cui, Yi Gong, Tian-Yi Xu, Fei Tong

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引用次数: 0

摘要

利用有机晶体中光诱导的相变，特别是不同维度上的形状和结构变化，为实现精确的时空控制提供了一条迷人的途径，这对于开发未来的智能设备至关重要。在我们的研究中，我们报告了一种由(E)-2-(3-苯基-亚烯丙基)丙二酸（(E)-PADM）制成的新型光活性分子晶体。当暴露在波长为 365 纳米的紫外线（UV）下时，该化合物在液态溶液中会发生 "E-Z "光异构化，而在固态晶体中则会发生 "晶-液 "相变。值得注意的是，与块状晶体相比，纳米结晶棒提高了熔化率和熔化度，这表明微型化增强了光诱导熔化效应。我们的研究结果展示了一种通过光化学反应和相变将分子晶体快速转化为液体的简单方法。

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Size Reduction to Enhance Crystal-to-Liquid Phase Transition Induced by E-to-Z Photoisomerization Based on Molecular Crystals of Phenylbutadiene Ester

Harnessing the photoinduced phase transitions in organic crystals, especially the changes in shape and structure across various dimensions, offers a fascinating avenue for exact spatiotemporal control, which is crucial for developing future smart devices. In our study, we report a new photoactive molecular crystal made from (E)-2-(3-phenyl-allylidene)malonate ((E)-PADM). When exposed to ultraviolet (UV) light at 365 nm, this compound experiences an E-to-Z photoisomerization in liquid solution and a crystal-to-liquid phase transition in solid crystals. Remarkably, nanoscopic crystalline rods boost their melting rate and degree compared to bulk crystals, indicating that miniaturization enhances the photoinduced melting effect. Our results demonstrate a simple approach to rapidly drive molecular crystals into liquids via photochemical reactions and phase transitions.

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Materials

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