Journal
INFOMAT
Volume 2, Issue 1, Pages 33-56Publisher
WILEY
DOI: 10.1002/inf2.12047
Keywords
flexible electronics; hybrid nanomaterials; one-dimensional nanomaterials; two-dimensional nanomaterials; wearable electronics
Categories
Funding
- Bio & Medical Technology Development Program [2018M3A9F1021649]
- Industrial Technology Innovation Program [10080577]
- Institute for Basic Science [IBS-R026-D1]
- Ministry of Science ICT (MSIT)
- Ministry of Trade, Industry and Energy (MOTIE) of Korea through the National Research Foundation [2016R1A5A1009926, 2019R1A2B5B03069358]
- Nano Material Technology Development Program [2015M3A7B4050308, 2016M3A7B4910635]
- Yonsei University [2018-22-0194]
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Research on flexible or wearable electronics has been grown remarkably due to the advent of nanomaterials, such as metal nanowires, graphene, or transition metal dichalcogenides. Although each nanomaterial has mechanical and electrical characteristics that can be applied into flexible electronics, the limitations of each nanomaterial are also clear. In order to overcome the limitations of these nanomaterials, research on the hybrid structures of nanomaterials has been extensively conducted. In this study, we introduce the properties of one-dimensional nanomaterials, two-dimensional nanomaterials, and their hybrid nanomaterials. And then, we provide information concerning various flexible electronics based on these nanomaterials. image
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