Preparation of and research on bioinspired graphene oxide/nanocellulose/polydopamine ternary artificial nacre

Preparation of and research on bioinspired graphene oxide/nanocellulose/polydopamine ternary artificial nacre

Inspired by the hierarchical micro/nanoscale structure and interfacial interactions of natural nacre, a variety of bioinspired layered materials were designed and prepared. However, the mechanical properties of the material were low according to the single interface interaction. In this study, we de...

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Main Authors: Muzhi Li, Yuanyuan Miao, Xueyong Zhai, Yuxue Yin, Yuanting Zhang, Zhibin Jian, Xiuya Wang, Lipeng Sun, Zhenbo Liu
Format: Article
Language:English
Published: Elsevier 2019-11-01
Series:Materials & Design
Online Access:http://www.sciencedirect.com/science/article/pii/S0264127519303995
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spelling doaj-c83ce2c6ccbd49ae8d7c2997ce36a3af2020-11-24T21:40:13ZengElsevierMaterials & Design0264-12752019-11-01181Preparation of and research on bioinspired graphene oxide/nanocellulose/polydopamine ternary artificial nacreMuzhi Li0Yuanyuan Miao1Xueyong Zhai2Yuxue Yin3Yuanting Zhang4Zhibin Jian5Xiuya Wang6Lipeng Sun7Zhenbo Liu8Key Laboratory of Bio-based Material Science and Technology of Ministry of Education, Northeast Forestry University, Harbin 150040, PR ChinaKey Laboratory of Bio-based Material Science and Technology of Ministry of Education, Northeast Forestry University, Harbin 150040, PR ChinaKey Laboratory of Bio-based Material Science and Technology of Ministry of Education, Northeast Forestry University, Harbin 150040, PR ChinaKey Laboratory of Bio-based Material Science and Technology of Ministry of Education, Northeast Forestry University, Harbin 150040, PR ChinaKey Laboratory of Bio-based Material Science and Technology of Ministry of Education, Northeast Forestry University, Harbin 150040, PR ChinaKey Laboratory of Bio-based Material Science and Technology of Ministry of Education, Northeast Forestry University, Harbin 150040, PR ChinaKey Laboratory of Bio-based Material Science and Technology of Ministry of Education, Northeast Forestry University, Harbin 150040, PR ChinaKey Laboratory of Bio-based Material Science and Technology of Ministry of Education, Northeast Forestry University, Harbin 150040, PR ChinaCorresponding author.; Key Laboratory of Bio-based Material Science and Technology of Ministry of Education, Northeast Forestry University, Harbin 150040, PR ChinaInspired by the hierarchical micro/nanoscale structure and interfacial interactions of natural nacre, a variety of bioinspired layered materials were designed and prepared. However, the mechanical properties of the material were low according to the single interface interaction. In this study, we demonstrated strong and tough ternary bioinspired artificial nacre through synergistic toughening of graphene oxide (GO) and nanocellulose (CNF). Furthermore, the composites also realized a combination of multiple interfacial crosslinking strategies, including hydrogen bonding, ionic bonding and covalent bonding, which greatly improved the mechanical properties of the materials. The tensile strengths and toughnesses of the ternary bioinspired composites reached 528 MPa and 7.3 MJ/m3, which were 3.9 and 4.1 times that of natural nacre, respectively. In addition to their excellent tensile strengths and toughnesses, the composites also had good electrical properties with a conductivity of 56.2 S cm−1. This bioinspired ternary artificial nacre, with excellent mechanical and electrical properties, has potential applications in aerospace engineering, flexible electrodes, artificial muscles and tissue engineering. Keywords: Graphene oxide, Interfacial interactions, Bioinspired composites, Ternary artificial nacre, Mechanical propertieshttp://www.sciencedirect.com/science/article/pii/S0264127519303995
collection DOAJ
language English
format Article
sources DOAJ
author Muzhi Li
Yuanyuan Miao
Xueyong Zhai
Yuxue Yin
Yuanting Zhang
Zhibin Jian
Xiuya Wang
Lipeng Sun
Zhenbo Liu
spellingShingle Muzhi Li
Yuanyuan Miao
Xueyong Zhai
Yuxue Yin
Yuanting Zhang
Zhibin Jian
Xiuya Wang
Lipeng Sun
Zhenbo Liu
Preparation of and research on bioinspired graphene oxide/nanocellulose/polydopamine ternary artificial nacre
Materials & Design
author_facet Muzhi Li
Yuanyuan Miao
Xueyong Zhai
Yuxue Yin
Yuanting Zhang
Zhibin Jian
Xiuya Wang
Lipeng Sun
Zhenbo Liu
author_sort Muzhi Li
title Preparation of and research on bioinspired graphene oxide/nanocellulose/polydopamine ternary artificial nacre
title_short Preparation of and research on bioinspired graphene oxide/nanocellulose/polydopamine ternary artificial nacre
title_full Preparation of and research on bioinspired graphene oxide/nanocellulose/polydopamine ternary artificial nacre
title_fullStr Preparation of and research on bioinspired graphene oxide/nanocellulose/polydopamine ternary artificial nacre
title_full_unstemmed Preparation of and research on bioinspired graphene oxide/nanocellulose/polydopamine ternary artificial nacre
title_sort preparation of and research on bioinspired graphene oxide/nanocellulose/polydopamine ternary artificial nacre
publisher Elsevier
series Materials & Design
issn 0264-1275
publishDate 2019-11-01
description Inspired by the hierarchical micro/nanoscale structure and interfacial interactions of natural nacre, a variety of bioinspired layered materials were designed and prepared. However, the mechanical properties of the material were low according to the single interface interaction. In this study, we demonstrated strong and tough ternary bioinspired artificial nacre through synergistic toughening of graphene oxide (GO) and nanocellulose (CNF). Furthermore, the composites also realized a combination of multiple interfacial crosslinking strategies, including hydrogen bonding, ionic bonding and covalent bonding, which greatly improved the mechanical properties of the materials. The tensile strengths and toughnesses of the ternary bioinspired composites reached 528 MPa and 7.3 MJ/m3, which were 3.9 and 4.1 times that of natural nacre, respectively. In addition to their excellent tensile strengths and toughnesses, the composites also had good electrical properties with a conductivity of 56.2 S cm−1. This bioinspired ternary artificial nacre, with excellent mechanical and electrical properties, has potential applications in aerospace engineering, flexible electrodes, artificial muscles and tissue engineering. Keywords: Graphene oxide, Interfacial interactions, Bioinspired composites, Ternary artificial nacre, Mechanical properties
url http://www.sciencedirect.com/science/article/pii/S0264127519303995
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