Performance Comparison of Traditional, Nanopolymerized, and Entangled Belousov−Zhabotinsky Self-Oscillating Gels

IF 3.1 Q2 CHEMISTRY, MULTIDISCIPLINARY ChemSystemsChem Pub Date : 2024-08-26 DOI:10.1002/syst.202400060

Zhenfang Cheng, Ling Yuan, Hui Wang, Haodi Yu, Meng Zhang, Irving R Epstein, Tan Gao, Lin Ren, Qingyu Gao

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Abstract

Belousov−Zhabotinsky (BZ) self-oscillating gels exhibit periodic volumetric swelling−deswelling, providing the basis for autonomous soft robots without external control. However, traditional BZ self-oscillating gels suffer from degradation and slow chemo−mechanical response. Here, three types of BZ self-oscillating gels were prepared by adjusting the monomer/crosslinker ratio and using N-isopropylacrylamide nanogels as crosslinker. Compared with traditional gels, the toughness of nanopolymerized and entangled gels was markedly improved and their response to the Ru (III)/Ru (II) alternation was accelerated. The three self-oscillating gels showed different periodic responses in a BZ reaction solution. Entangled gels, as a result of their greater spatial uniformity in energy dissipation and enhanced interconnection between mesopores, respectively, showed the longest lifetime and shortest chemo-mechanical oscillation delay. The synthesis of tougher and faster responding entangled gels expands the function and application of BZ self-oscillating gels.

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贝洛索夫-扎博金斯基（Belousov-Zhabotinsky，BZ）自振凝胶表现出周期性的体积膨胀-消肿，为无需外部控制的自主软机器人提供了基础。然而，传统的 BZ 自振荡凝胶存在降解和化学机械响应缓慢的问题。本文通过调整单体/交联剂的比例，以N-异丙基丙烯酰胺纳米凝胶为交联剂，制备了三种类型的BZ自振荡凝胶。与传统凝胶相比，纳米聚合缠结凝胶的韧性明显提高，对Ru（III）/Ru（II）交变的响应速度加快。三种自振荡凝胶在 BZ 反应溶液中表现出不同的周期性响应。缠结凝胶由于能量耗散的空间均匀性更强，介孔之间的相互连接也更紧密，因此寿命最长，化学机械振荡延迟最短。更坚韧、反应更快的缠结凝胶的合成拓展了 BZ 自振荡凝胶的功能和应用。

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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