Preparation and Performance of Chitosan /Sericite Composite Film with Nacre-like Structure

doi:10.11901/1005.3093.2016.029

Chinese Journal of Materials Research

2016, Vol. 30

Issue (10): 763-766 DOI: 10.11901/1005.3093.2016.029

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Preparation and Performance of Chitosan /Sericite Composite Film with Nacre-like Structure

Su TAN^1,²,Xian ZHANG²,Chao BAO²,Xin DING²,Kun HU²,Kang ZHENG²,Xingyou TIAN²(

)

1. School of Physics and Materials Science, AnhuiUniversity, Hefei 230601, China
2. Technology and EngineeringResearchCenter of Advanced Materials, Institute of Applied Technology, Hefei Institutes of Physics Science, Chinese Academic of Sciences, Hefei 230088, China

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Su TAN,Xian ZHANG,Chao BAO,Xin DING,Kun HU,Kang ZHENG,Xingyou TIAN. Preparation and Performance of Chitosan /Sericite Composite Film with Nacre-like Structure. Chinese Journal of Materials Research, 2016, 30(10): 763-766.

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Abstract

The chitosan/sericite composite film was prepared by blending plate-like sericite and chitosan. The Scanning electron microscope result indicated that the composite film has typical “brick-mortar” orientation microstructure. The mechanical properties (tensile strength and elongation at break) of the film were enhanced apparently with the incorporation of sericite, whilstthe films preserved good flexibility on account of the unique structure. Furthermore, the composite film exhibited excellent properties in transparency and insulation.

Key words: inorganic non-metallic materials bionic structure composite film blending chitosan sericite

Received: 05 January 2016

Fund: *Supported by National Natural Science Foundation of China No.51303182.

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	Su TAN
	Xian ZHANG
	Chao BAO
	Xin DING
	Kun HU
	Kang ZHENG
	Xingyou TIAN

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https://www.cjmr.org/EN/10.11901/1005.3093.2016.029 OR https://www.cjmr.org/EN/Y2016/V30/I10/763

Fig.1 SEM images of thermal treated sericite (a1, a2), CH-25 (b1, b2), CH-50 (c1, c2) and CH-100 (d1, d2)

Fig.2 XRD pattern of different samples

Fig.3 Transparency and flexibility of different samples

Fig.4 UV-vis results of different film samples

Fig.5 Stress-strain curves (a), tensile strength and elongation at break (b) of different composite film samples

Fig.6 Electric insulativity of different composite film samples

1	I Corni, T J Harvey, J A Wharton, K R Stokes, F C Walshand R J KWood, A review of experimental techniques to produce a nacre-like structure, Bioinspiration Biomimetics, 7(23), 31001(2012)
2	Jianfeng Wang, Qunfeng Cheng, Zhiyong Tang, Layered nanocomposites inspired by the structure and mechanical properties of nacre, Chemical Society Reviews, 41, 1111(2012)
3	HongBin Yao, HaiYu Fang, ZhiHua Tan, LiHeng Wu, ShuHong Yu, Biologically inspired, strong, transparent, and functional layered organic-inorganic hybrid films, Angewandte Chemie International Edition, 49, 2140(2010)
4	Xiaozhen Hu, Zhen Xu, Chao Gao, Multifunctional, supramolecular, continuous artificial nacre fibres, Scientific Reports, 2, 767(2012)
5	Zaklina Burghard, Lorenzo Zini, Vesna Srot, Paul Bellina, Peter A. van Aken, Joachim Bill, Toughening through nature-adapted nanoscale design, Nano Letters, 9(12), 410(2009)
6	Yingqi Shu, Penggang Yin, Jianfeng Wang, Benliang Liang, Hao Wang, Lin Guo, Bioinspired nacre-like heparin/layered double hydroxide film with superior mechanical, fire-Shielding, and UV-blocking properties, Industrial & Engineering Chemistry Research, 53, 3820(2014)
7	Hikaru Uno, Kenji Tamura, Hirohisa Yamada, Kiyoshi Umeyama, Tamao Hatta, Yusuke Moriyoshi, Preparation and mechanical properties of exfoliated mica-polyamide 6 nanocomposites using sericite mica, Applied Clay Science, 46, 81(2009)
8	Hongbin Yao, Zhihua Tan, Haiyu Fang, Shuhong Yu, Artificial nacre-like bionanocomposite films from the self-assembly of chitosan-montmorillonite hybrid building blocks, Angewandte Chemie International Edition, 49, 10127(2010)

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