具有快速ph刺激响应的全木质素水凝胶用于机械开关和驱动

IF 7.2 2区材料科学 Q2 CHEMISTRY, PHYSICAL

Chemistry of Materials Pub Date : 2020-05-05 DOI:10.1021/acs.chemmater.0c01198

Lin Dai*, Mingshuai Ma, Jikun Xu, Chuanling Si*, Xiaohui Wang, Zhong Liu*, Yonghao Ni*

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引用次数: 110

摘要

快速响应ph刺激的水凝胶在多个领域具有很高的实用价值，包括执行器、传感器和分离。然而，现有的水凝胶很难实现低成本、快速pH响应和良好机械性能的结合。木质素是自然界中含量最丰富的芳香族可再生生物聚合物，它具有独特的ph刺激响应特性，在传统制浆造纸工业中一直用于木质素的溶解和沉淀，但在其他方面的应用还没有得到足够的重视。本文制备了一种低成本、简单的全木质素基水凝胶，该水凝胶在软化/增强和直/弯曲形状之间具有优异的ph刺激响应性能。交替循环可以在1分钟内完成，并重复多次。此外，还以具有代表性的条形和方形样品分别制备了智能挂钩和流体ph控制开关。这些新发现将开启智能材料和木质素基材料的新设计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

All-Lignin-Based Hydrogel with Fast pH-Stimuli Responsiveness for Mechanical Switching and Actuation

查看原文本刊更多论文

All-Lignin-Based Hydrogel with Fast pH-Stimuli Responsiveness for Mechanical Switching and Actuation

Fast pH-stimuli-responsive hydrogels have high practical value in multiple fields, including actuators, sensors, and separations. However, with existing hydrogels, it is very difficult to achieve a combination of low cost, fast pH response, and good mechanical performance. Lignin, the most abundant aromatic renewable biopolymer in nature, has a unique pH-stimuli-responding property, which has long been used in the dissolution and precipitation of lignin in the traditional pulp and paper industry, though it has not gained appropriate attention for other applications. Herein, a low-cost and simple all-lignin-based hydrogel was prepared, which exhibited excellent pH-stimuli-responsive performance between softening/enhancement and straight/bending shapes. The alternation cycle can be completed in just 1 min and repeated many times. Moreover, a smart hook and a fluidic pH-controlled switch were also prepared from a representative strip-shaped and square-shaped sample, respectively. These new findings will initiate a new design for not only smart materials but also lignin-based materials.

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来源期刊

Chemistry of Materials 工程技术-材料科学：综合

CiteScore

14.10

自引率

5.80%

发文量

929

审稿时长

1.5 months

期刊介绍： The journal Chemistry of Materials focuses on publishing original research at the intersection of materials science and chemistry. The studies published in the journal involve chemistry as a prominent component and explore topics such as the design, synthesis, characterization, processing, understanding, and application of functional or potentially functional materials. The journal covers various areas of interest, including inorganic and organic solid-state chemistry, nanomaterials, biomaterials, thin films and polymers, and composite/hybrid materials. The journal particularly seeks papers that highlight the creation or development of innovative materials with novel optical, electrical, magnetic, catalytic, or mechanical properties. It is essential that manuscripts on these topics have a primary focus on the chemistry of materials and represent a significant advancement compared to prior research. Before external reviews are sought, submitted manuscripts undergo a review process by a minimum of two editors to ensure their appropriateness for the journal and the presence of sufficient evidence of a significant advance that will be of broad interest to the materials chemistry community.