4.8 Review

Nanopaper Electronics

Journal

ADVANCED FUNCTIONAL MATERIALS
Volume 33, Issue 23, Pages -

Publisher

WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.202213820

Keywords

cellulose fibrils; cellulose nanocrystals; electronics; nanocelluloses; nanopapers

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In recent years, nanocellulose, a new-emerging colloid, has gained increasing attention due to its favorable properties. It has become a ubiquitous feature in electronics, extending across different components and applications. This review summarizes the contribution of nanocellulose to nano-related electronics, categorizes its utilization in various devices, and analyzes its attributes. It also provides a summary of recent advances in solid-state electronics, optoelectronic devices, and flexible/wearable electronics. The analysis of nanocellulose's electrical, dielectric, and electronic structures and properties in relation to device performances is believed to be beneficial in setting a judgment criterion for future devices.
In the past few years, nanocellulose, as a new-emerging colloid, has developed into a large family and gained increasing attention owing to its favorable properties. It represents a ubiquitous feature in electronics as different components according to principles extend across energy, lighting management, and transistors and biosensors to information technologies. Within these decades, there are a lot of remarkable phenomena, effects, and performances relevant to a few additional attributes of nanocellulose, making the electronics perform better and better. Toward the rapid nanotechnology development and the need of the society, characterizing this important nanomaterial and making more and more new electronics have become important things to be done. This review consolidates the contribution of nanocellulose to nano-related electronics, summarizes these methods to utilize nanocellulose as any component in devices, and points out the attributes of the nanocellulose. In the devices, the recent advances into solid-state electronics, optoelectronic devices, and flexible/wearable electronics are categorized. The intrinsic electrical, dielectric and electronic structures, and properties of nanocellulose related to the device performances are particularly summarized and analyzed, which is believed beneficial in providing a judgment criterion for devices in the future.

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