Review of electrically conductive composites and films containing cellulosic fibers or nanocellulose

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Abstract

Strategic combinations of cellulosic materials with electrically conductive polymers or nanoconductors offer important potential advantages for technological advances, light-weight inexpensive products, applications of novel form factors, and more eco-friendly alternatives to certain forms of smart packaging and electronics. This review of the literature focuses on how such electrically conductive composite systems work, the roles that cellulosic materials can provide in such structures, processes by which electrically-conductive cellulose-based composites and films can be manufactured, and various potential applications that have been demonstrated. Several advantages of cellulose, such as ease of fabrication, compatibility with conductive agents, and sustainability, allow its integration with conductive agents in making conductive composites. Applications of electrically conducting cellulose-based composites for strain sensors, energy storage, solar cells, electrodes, supercapacitors, and smart packaging are discussed.

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Zhang, H., Dou, C., Pal, L., & Hubbe, M. A. (2019). Review of electrically conductive composites and films containing cellulosic fibers or nanocellulose. BioResources, 14(3), 7494–7542. https://doi.org/10.15376/biores.14.3.7494-7542

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