Advancement in Soft Hydrogel Grippers: Comprehensive Insights into Materials, Fabrication Strategies, Grasping Mechanism, and Applications.

IF 3.4 3区 医学 Q1 ENGINEERING, MULTIDISCIPLINARY
Xiaoxiao Dong, Chen Wang, Haoxin Song, Jinqiang Shao, Guiyao Lan, Jiaming Zhang, Xiangkun Li, Ming Li
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引用次数: 0

Abstract

Soft hydrogel grippers have attracted considerable attention due to their flexible/elastic bodies, stimuli-responsive grasping and releasing capacity, and novel applications in specific task fields. To create soft hydrogel grippers with robust grasping of various types of objects, high load capability, fast grab response, and long-time service life, researchers delve deeper into hydrogel materials, fabrication strategies, and underlying actuation mechanisms. This article provides a systematic overview of hydrogel materials used in soft grippers, focusing on materials composition, chemical functional groups, and characteristics and the strategies for integrating these responsive hydrogel materials into soft grippers, including one-step polymerization, additive manufacturing, and structural modification are reviewed in detail. Moreover, ongoing research about actuating mechanisms (e.g., thermal/electrical/magnetic/chemical) and grasping applications of soft hydrogel grippers is summarized. Some remaining challenges and future perspectives in soft hydrogel grippers are also provided. This work highlights the recent advances of soft hydrogel grippers, which provides useful insights into the development of the new generation of functional soft hydrogel grippers.

软水凝胶机械手的进步:对材料、制造策略、抓取机制和应用的全面见解。
软水凝胶机械手因其柔性/弹性体、刺激响应式抓取和释放能力以及在特定任务领域的新颖应用而备受关注。为了制造出能稳健抓取各种类型物体、高负载能力、快速抓取响应和长使用寿命的软水凝胶抓手,研究人员对水凝胶材料、制造策略和基本驱动机制进行了深入研究。本文系统概述了软抓手中使用的水凝胶材料,重点介绍了材料的组成、化学官能团和特性,并详细评述了将这些反应灵敏的水凝胶材料集成到软抓手中的策略,包括一步聚合、添加制造和结构改性。此外,还总结了正在进行的有关软水凝胶抓手的致动机制(如热/电/磁/化学)和抓取应用的研究。此外,还介绍了软水凝胶抓手领域的一些剩余挑战和未来展望。这项工作重点介绍了软水凝胶抓手的最新进展,为开发新一代功能性软水凝胶抓手提供了有益的启示。
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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来源期刊
Biomimetics
Biomimetics Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
3.50
自引率
11.10%
发文量
189
审稿时长
11 weeks
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