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Graphene for flexible and wearable device applications

Title
Graphene for flexible and wearable device applications
Author(s)
Kim, HyunminAhn, Jong-Hyun
Issued Date
2017-08
Citation
Carbon, v.120, pp.244 - 257
Type
Article
Author Keywords
Wearable electronicsGrapheneOptoelectronicsPhysical sensingHealth careEnergy harvesting
Keywords
Chemical Vapor Depositions (CVD)Electronic SkinEnergy HarvestingEnhanced Raman SpectroscopyGrapheneHealth CareLarge AreaLight Emitting Diodes (LED)Lithium Ion BatteriesOptoelectronic DevicesOptoelectronicsPerovskite Solar CellsPhysical SensingSingle Layer GrapheneStrain SensorsWearable Electronics
ISSN
0008-6223
Abstract
A simple mechanical exfoliation of bulk graphite can guarantee the formation of a high-quality, stable 2D carbon-based van der Waals allotrope (graphene). Thus, the industrial-level production of graphene has been intensively exploited using various fabrication methods, including cold-temperature, solution-based drop-and-cast process; ultrahigh vacuum chemical vapor deposition; and the role-to-role-type mass production. Given such industrial maturation in preparing high-fidelity graphene, the industry naturally finds its highest motivated applications in the areas of outstanding optical, electronic, and mechanical properties necessary for designing electronic components spanning from bendable/flexible objects such as light-emitting diodes, detectors, and photovoltaics to user-friendly, high-end wearable objects such as physical sensors, biosensors, and energy storage/harvesters. The details of these flexible/wearable applications will be selectively discussed in this paper. (C) 2017 Elsevier Ltd. All rights reserved.
URI
http://hdl.handle.net/20.500.11750/4125
DOI
10.1016/j.carbon.2017.05.041
Publisher
Pergamon Press Ltd.
Related Researcher
  • 김현민 Kim, Hyunmin
  • Research Interests Nonlinear optics; Femtosecond ultrafast carrier dynamics; Super resolution microscopy; Optical soliton transport; Biological imaging
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Division of Biomedical Technology 1. Journal Articles

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