Micro/nanostructured surfaces for self-powered and multifunctional electronic skins

Citation data:

J. Mater. Chem. B, ISSN: 2050-750X, Vol: 4, Issue: 18, Page: 2999-3018

Publication Year:
2016
Usage 4
Abstract Views 2
Link-outs 2
Captures 28
Readers 28
Citations 8
Citation Indexes 8
Repository URL:
http://scholarworks.unist.ac.kr/handle/201301/19209
DOI:
10.1039/c5tb02483h
Author(s):
Park, Jonghwa, Lee, Youngoh, Ha, Mijeong, Cho, Seungse, Ko, Hyunhyub
Publisher(s):
Royal Society of Chemistry (RSC), The Royal Society of Chemistry, ROYAL SOC CHEMISTRYROYAL SOC CHEMISTRY
Tags:
Chemistry, Medicine, Engineering, Materials Science, HUMAN-MACHINE INTERFACES, TRIBOELECTRIC NANOGENERATOR, HIGH-PERFORMANCE, CARBON NANOTUBE, PRESSURE SENSORS, STRAIN SENSOR, PIEZOELECTRIC NANOGENERATORS, TEMPERATURE SENSORS, ARTIFICIAL SKIN, THIN-FILM
article description
Flexible electronic devices are regarded as one of the key technologies in wearable healthcare systems, wireless communications and smart personal electronics. For the realization of these applications, wearable energy and sensor devices are the two main technologies that need to be developed into lightweight, miniaturized, and flexible forms. In this review, we introduce recent advances in the controlled design of device structures into bioinspired micro/nanostructures and 2D/3D structures for the enhancement of energy harvesting and multifunctional sensing properties of flexible electronic skins. In addition, we highlight their potential applications in flexible/wearable electronics, sensors, robotics and prosthetics, and biomedical devices.