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A Review on Nanocellulose and Its Application in Supercapacitors

Nur Atirah Afifah SezaliFaculty of Chemical Engineering Technology Universiti Malaysia Perlis (UniMAP) Jejawi Perlis 02600 MalaysiaHui Lin OngCentre of Excellence for Biomass Utilization and Taiwan‐Malaysia Innovation Centre for Clean Water and Sustainable Energy (WISE Centre) Universiti Malaysia Perlis (UniMAP) Jejawi Perlis 02600 MalaysiaNora JullokCentre of Excellence for Biomass Utilization and Taiwan‐Malaysia Innovation Centre for Clean Water and Sustainable Energy (WISE Centre) Universiti Malaysia Perlis (UniMAP) Jejawi Perlis 02600 MalaysiaAl Rey VillagraciaPhysics Department College of Science 2401 Taft Ave. De La Salle University Malate Manila 0922 PhilippinesRuey‐an Doong101 Sec. 2 Kuang‐Fu Road Institute of Analytical and Environmental Sciences National Tsing Hua University Hsinchu 30013 Taiwan
2021en
ABI

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Abstract Commercially available supercapacitors offer very limited advantages over other energy storage devices. Balancing their electrochemical performance such as capacitance, energy density, and cyclability is challenging. Studies have shown that this challenge can be overcome by using light and cheap substrates that are highly stable with solvents, and have high loading capacities and compatibility with nanomaterials. Nanocellulose, derived from wastes or biomass, is a good candidate for integrating with other nanosize conductive materials, such as carbon, conducting polymers, and metal oxides, as active materials or nanocomposites for supercapacitors. This review focuses on the properties and preparation of nanocellulose sourced from wastes (biomass) and bacteria, and extends to emerging materials, such as metal–organic frameworks and MXene, for nanocellulose‐based supercapacitors. Even though supercapacitors are mainly composed of electrodes, electrolytes, and separators, this paper focuses on the overall electrochemical performance of nanocellulose‐based supercapacitors to evaluate the influence of nanocellulose. In addition, the potentials and possible limitations of nanocellulose in supercapacitors are discussed. Overall, the incorporation of waste‐derived nanocellulose into energy storage applications is an initiative that improves the circular economy and supports environmental sustainability.

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