Journal
CELL REPORTS PHYSICAL SCIENCE
Volume 4, Issue 3, Pages -Publisher
CELL PRESS
DOI: 10.1016/j.xcrp.2023.101289
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Inspired by the excellent energy absorption capability of cartilage structure, researchers have developed a dual-network impact-hardening gel with high malleability, self-healing properties, rate dependence, and toughness. The gel exhibits outstanding protective ability and can be combined with Kevlar fabric and foam to form a flexible anti-impact composite.
Smart anti-impact materials are desirable for personal protection and industrial security. However, they often suffer from poor perfor-mance control and inherent stability issues. Here, inspired by the excellent energy absorption of cartilage structure, we develop a dual-network impact-hardening gel composed of dynamic polyboro-siloxane and entangled polyethylene glycol networks. By optimizing the topology and composition of the dual network, the bioinspired gel has high malleability, self-healing properties, rate dependence, and toughness. Particularly, the gel exhibits ultrahigh stability, holding its network structure and shear-stiffening behavior after exposure to air or even soaking in water. The gel exhibits an outstanding protective ability (reducing the impact force by 80.2% of control) compared with common materials including foam, plastic, rubber, wood, and steel. Moreover, the gel exhibits good versatility, which can be combined with Kevlar fabric and foam to form a flexible anti-impact composite. The cartilage-inspired dual-network gel may fuel the evolution of anti-impact devices.
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