Nanocellulose: a promising nanomaterial for advanced electrochemical energy storage

Author(s): Wenshuai Chen ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , Haipeng Yu ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , Sang-Young Lee ⁶ ^, ⁷ ^, ⁸ ^, ⁹ ^, ¹⁰ , Tong Wei ¹¹ ^, ² ^, ¹² ^, ⁴ ^, ⁵ , Jian Li ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , Zhuangjun Fan ¹¹ ^, ² ^, ¹² ^, ⁴ ^, ⁵

Publication date (Electronic): 2018

Journal: Chemical Society Reviews

Publisher: Royal Society of Chemistry (RSC)

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Abstract

Nanocellulose from various kinds of sources and nanocellulose-derived materials have been developed for electrochemical energy storage, including supercapacitors, lithium-ion batteries, lithium–sulfur batteries, and sodium-ion batteries.

Abstract

Nanocellulose has emerged as a sustainable and promising nanomaterial owing to its unique structures, superb properties, and natural abundance. Here, we present a comprehensive review of the current research activities that center on the development of nanocellulose for advanced electrochemical energy storage. We begin with a brief introduction of the structural features of cellulose nanofibers within the cell walls of cellulose resources. We then focus on a variety of processes that have been explored to fabricate nanocellulose with various structures and surface chemical properties. Next, we highlight a number of energy storage systems that utilize nanocellulose-derived materials, including supercapacitors, lithium-ion batteries, lithium–sulfur batteries, and sodium-ion batteries. In this section, the main focus is on the integration of nanocellulose with other active materials, developing films/aerogel as flexible substrates, and the pyrolyzation of nanocellulose to carbon materials and their functionalization by activation, heteroatom-doping, and hybridization with other active materials. Finally, we present our perspectives on several issues that need further exploration in this active research field in the future.

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Opportunities and challenges for a sustainable energy future.

Steven Chu, Arun Majumdar (2012)

Access to clean, affordable and reliable energy has been a cornerstone of the world's increasing prosperity and economic growth since the beginning of the industrial revolution. Our use of energy in the twenty-first century must also be sustainable. Solar and water-based energy generation, and engineering of microbes to produce biofuels are a few examples of the alternatives. This Perspective puts these opportunities into a larger context by relating them to a number of aspects in the transportation and electricity generation sectors. It also provides a snapshot of the current energy landscape and discusses several research and development opportunities and pathways that could lead to a prosperous, sustainable and secure energy future for the world.