分子工程化的双重交联水凝胶，具有超高的机械强度、韧性和良好的自恢复性。

Molecularly engineered dual-crosslinked hydrogel with ultrahigh mechanical strength, toughness, and good self-recovery.

机构信息

State Key Laboratory of Solid Lubrication, Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences, Lanzhou, 730000, China; University of Chinese Academy of Sciences, Beijing, 100049, China.

出版信息

Adv Mater. 2015 Mar 25;27(12):2054-9. doi: 10.1002/adma.201405022. Epub 2015 Feb 11.

DOI:10.1002/adma.201405022

PMID:25677412

Abstract

A molecularly engineered dual-crosslinked hydrogel with extraordinary mechanical properties is reported. The hydrogel network is formed with both chemical crosslinking and acrylic-Fe(III) coordination; these, respectively, impart the elasticity and enhance the mechanical properties by effectively dissipating energy. The optimal hydrogel achieves a tensile stress of ca. 6 MPa at a large elongation ratio (>7 times), a toughness of 27 MJ m(-3) , and a stiffness of ca. 2 MPa, and has good self-recovery properties.

摘要

本文报道了一种具有非凡机械性能的分子工程双交联水凝胶。该水凝胶网络通过化学交联和丙烯酰基-Fe(III)配位形成; 分别赋予弹性和通过有效耗散能量来提高机械性能。最优水凝胶在大伸长率(>7 倍)下实现了约 6 MPa 的拉伸应力、27 MJ m(-3) 的韧性和约 2 MPa 的刚度，并具有良好的自恢复性能。

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分子工程化的双重交联水凝胶，具有超高的机械强度、韧性和良好的自恢复性。

Molecularly engineered dual-crosslinked hydrogel with ultrahigh mechanical strength, toughness, and good self-recovery.

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分子工程化的双重交联水凝胶，具有超高的机械强度、韧性和良好的自恢复性。

Molecularly engineered dual-crosslinked hydrogel with ultrahigh mechanical strength, toughness, and good self-recovery.

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