通过水溶性醋酸纤维素和石墨烯的协同作用，得到坚韧且导电的生物基人工珍珠层。

Tough and conductive bio-based artificial nacre via synergistic effect between water-soluble cellulose acetate and graphene.

机构信息

Shandong Provincial Key Laboratory of Biochemical Engineering, College of Marine Science and Biological Engineering, Qingdao University of Science & Technology, Qingdao, 266042, PR China.

出版信息

Carbohydr Polym. 2019 Feb 15;206:319-327. doi: 10.1016/j.carbpol.2018.10.116. Epub 2018 Nov 1.

DOI:10.1016/j.carbpol.2018.10.116

PMID:30553328

Abstract

Inspired by the hierarchical structure of natural nacre, a binary artificial nacre with excellent mechanical performance, tensile strength and toughness was successfully constructed based on water-soluble cellulose acetate (WSCA) and reduced graphene oxide (rGO). The tensile strength and toughness of the hybrid films were markedly improved by the introduction of rGO, and the tensile strength and toughness of the rGO/WSCA composite films reached 499.3 MPa and 9.6 MJ/m (rGO-WSCA-III), respectively, which are approximately 5.0 and 5.3 times that of natural nacre. In addition, the hybrid rGO/WSCA films showed better flame retardancy and stability in water, and high electrical conductivity. In this study, we provide a strategy to design and fabricate exceptionally strong and tough artificial nacre, which has potential application in tissue engineering and as a humidity sensor.

摘要

受天然珍珠母层状结构的启发，成功地基于水溶性醋酸纤维素 (WSCA) 和还原氧化石墨烯 (rGO) 构建了具有优异力学性能、拉伸强度和韧性的二元人工珍珠母。rGO 的引入显著提高了杂化膜的拉伸强度和韧性，rGO/WSCA 复合膜的拉伸强度和韧性分别达到 499.3 MPa 和 9.6 MJ/m（rGO-WSCA-III），分别约为天然珍珠母的 5.0 倍和 5.3 倍。此外，杂化 rGO/WSCA 薄膜在水中具有更好的阻燃性和稳定性，以及较高的导电性。在这项研究中，我们提供了一种设计和制造超强、超韧人工珍珠母的策略，该策略在组织工程和湿度传感器方面具有潜在应用。

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通过水溶性醋酸纤维素和石墨烯的协同作用，得到坚韧且导电的生物基人工珍珠层。

Tough and conductive bio-based artificial nacre via synergistic effect between water-soluble cellulose acetate and graphene.

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