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Graphene for flexible and wearable device applications
- Graphene for flexible and wearable device applications
- Kim, Hyunmin; Ahn, Jong-Hyun
- DGIST Authors
- Kim, Hyunmin
- Issue Date
- Carbon, 120, 244-257
- Article Type
- Chemical Vapor Depositions (CVD); Electronic Skin; Energy Harvesting; Enhanced Raman Spectroscopy; Graphene; Health Care; Large Area; Light Emitting Diodes (LED); Lithium Ion Batteries; Optoelectronic Devices; Optoelectronics; Perovskite Solar Cells; Physical Sensing; Single Layer Graphene; Strain Sensors; Wearable Electronics
- 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.
- Pergamon Press Ltd.
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- Companion Diagnostics and Medical Technology Research Group1. Journal Articles
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