Laser-induced graphitization of a forest-based ink for use in flexible and printed electronics

Abstract Laser-induced graphitization (LIG) is a method of converting a carbon-rich precursor into a highly conductive graphite-like carbon by laser scribing. This method has shown great promise as a versatile and low-cost patterning technique. Here we show for the first time how an ink based on cel...

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Bibliographic Details
Main Authors: Jesper Edberg, Robert Brooke, Omid Hosseinaei, Andreas Fall, Kosala Wijeratne, Mats Sandberg
Format: Article
Language:English
Published: Nature Publishing Group 2020-08-01
Series:npj Flexible Electronics
Online Access:https://doi.org/10.1038/s41528-020-0080-2
Description
Summary:Abstract Laser-induced graphitization (LIG) is a method of converting a carbon-rich precursor into a highly conductive graphite-like carbon by laser scribing. This method has shown great promise as a versatile and low-cost patterning technique. Here we show for the first time how an ink based on cellulose and lignin can be patterned using screen printing followed by laser graphitization. Screen printing is one of the most commonly used manufacturing techniques of printed electronics, making this approach compatible with existing processing of various devices. The use of forest-based materials opens the possibility of producing green and sustainable electronics. Pre-patterning of the ink enables carbon patterns without residual precursor between the patterns. We investigated the effect of the ink composition, laser parameters, and additives on the conductivity and structure of the resulting carbon and could achieve low sheet resistance of 3.8 Ω sq−1 and a high degree of graphitization. We demonstrated that the process is compatible with printed electronics and finally manufactured a humidity sensor which uses lignin as the sensing layer and graphitized lignin as the electrodes.
ISSN:2397-4621