Multimode crawling motions of azobenzene crystal induced by light intensities for application as a shape-changeable microcleaner†

IF 2.6 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY CrystEngComm Pub Date : 2024-10-02 DOI:10.1039/D4CE00827H

Makoto Saikawa, Kengo Manabe, Koichiro Saito, Yoshihiro Kikkawa and Yasuo Norikane

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Abstract

Crystals of trans-3,3′-dimethylazobenzene (DMAB) exhibit crawling motion on solid surface upon simultaneous exposure to ultraviolet (UV) and visible light from opposite directions. In this study, the shape and velocity during the photoinduced crawling motion of DMAB crystals are successfully controlled by irradiation light intensities. A higher intensity of the visible light than the UV light causes the crystals to be spread shape and move slower (∼1 μm min⁻¹). In contrast, a stronger UV light allows them to be droplet-like shape and move faster (∼4 μm min⁻¹). The shape and velocity can be varied by adjusting the light intensities. Shape transformation is effectively applied to cargo capture–carry–release tasks. In particular, spread-shaped crystals capture silica particles over a wide area, whereas droplet-like crystals gather and transport them. This result suggests that a multifunctional soft transporter composed of a single component does not require complex fabrication, thereby contributing to the fields of soft robotics and microfluidics.

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偶氮苯晶体在光强诱导下的多模爬行运动，可应用于形状可变的微型清洁器†。

反式-3,3′-二甲基偶氮苯（DMAB）晶体在同时受到相反方向的紫外线（UV）和可见光照射时，会在固体表面表现出爬行运动。在这项研究中，光诱导 DMAB 晶体爬行运动过程中的形状和速度成功地受到了照射光强度的控制。可见光的强度高于紫外光，会导致晶体形状散开，移动速度减慢（1 μm min-1）。相反，较强的紫外光可使晶体呈液滴状，移动速度较快（∼4 μm min-1）。可以通过调整光强度来改变形状和速度。形状变换可有效地应用于货物捕获-携带-释放任务。特别是，扩散型晶体能大面积捕获二氧化硅颗粒，而液滴型晶体则能聚集和运输这些颗粒。这一结果表明，由单一成分组成的多功能软运输器不需要复杂的制造工艺，从而为软机器人和微流体领域做出了贡献。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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