Affiliation:
1. Applied Nano and Thermal Science Lab Department of Mechanical Engineering Seoul National University 1 Gwanak‐ro, Gwanak‐gu Seoul 08826 Republic of Korea
2. Department of Mechanical Robotics, and Energy Engineering Dongguk University 30 Pildong‐ro 1‐gil, Jung‐gu Seoul 04620 Republic of Korea
3. Institute of Engineering Research/Institute of Advanced Machinery and Design (SNU‐IAMD) Seoul National University Gwanak‐ro, Gwanak‐gu Seoul 08826 Republic of Korea
Abstract
AbstractAs environmental issues have become the dominant agenda worldwide, the necessity for more environmentally friendly electronics has recently emerged. Accordingly, biodegradable or nature‐derived materials for green electronics have attracted increased interest. Initially, metal‐green hybrid electronics are extensively studied. Although these materials are partially biodegradable, they have high utility owing to their metallic components. Subsequently, carbon‐framed materials (such as graphite, cylindrical carbon nanomaterials, graphene, graphene oxide, laser‐induced graphene) have been investigated. This has led to the adoption of various strategies for carbon‐based materials, such as blending them with biodegradable materials. Moreover, various conductive polymers have been developed and researchers have studied their potential use in green electronics. Researchers have attempted to fabricate conductive polymer composites with high biodegradability by shortening the polymer chains. Furthermore, various physical, chemical, and biological sensors that are essential to modern society have been studied using biodegradable compounds. These recent advances in green electronics have paved the way toward their application in real life, providing a brighter future for society.
Funder
National Research Foundation of Korea
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
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