智能分子晶体开关

Ian Cheng-Yi Hou, Liang Li, Hongyu Zhang, Panče Naumov
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引用次数: 0

摘要

从宏观世界到分子世界,多方面的开关都是我们日常生活的一部分。在溶液和晶体状态下工作的分子开关截然不同。在这篇综述中,我们总结了基于分子马氏体的智能分子晶体开关的最新进展。这些晶体开关会对外界刺激做出反应,并在不同状态之间进行可逆变化,同时保持其宏观完整性。开关的运行主要依赖于温度变化或机械应力,还有基于光热效应、光异构化和主客体化学的新兴方法。智能分子晶体开关中改变分子取向和相互作用的能力为多种应用提供了机会,包括致动器、可逆成型结构材料、光电和磁性材料以及可切换多孔材料。智能分子晶体开关在现代科学和技术进步中具有巨大潜力。正在进行的研究为不同学科的创新和未来科学探索勾勒出一幅丰富的图景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Smart molecular crystal switches

Smart molecular crystal switches
The multifaceted switches are part of our everyday life from the macroscopic to the molecular world. A molecular switch operating in the solution and in the crystalline state is very different. In this review, we summarize the state-of-the-art of smart molecular crystal switches based on molecular martensites. These crystal switches respond to external stimuli and reversibly change between states, retaining their macroscopic integrity. The operation of the switches predominantly relies on temperature alterations or mechanical stress, with emerging methods based on photothermal effects, photoisomerization, and host-guest chemistry. The capability of changing the molecular orientation and interaction in smart molecular crystal switches offers opportunities in several applications, including actuators, reversibly shaping structural materials, optoelectronic and magnetic materials, as well as switchable porous materials. Smart molecular crystal switches have vast potential in modern scientific and technological progress. The ongoing research shapes a rich landscape for innovation and future scientific exploration across diverse disciplines.
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