Abstract
Nanomaterials, such as single-walled carbon nanotubes (SWCNTs) and transition metal dichalcogenide (TMDC) monolayers, are intrinsically flexible and stretchable because of their nanoscale thicknesses. Therefore, nanomaterials can be used as high-performance thin-film transistors and are possible candidates for next-generation flexible/stretchable electronics. Here, we focus on the recent development in fabricating nanomaterial-based transistors. The reported virtues and novelties of SWCNTs and TMDCs provide significant advantages for developing printed electronics that are flexible and stretchable.
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Acknowledgements
J.P. acknowledges the Leading Graduate Program in Science and Engineering, Waseda University, from MEXT, Japan, and was supported by Research Fellowship for Young Scientists, Japan Society for the Promotion of Science (JSPS). T.T. was partially supported by the Funding Program for the Next Generation of World-Leading Researchers and Grants-in-Aid from MEXT (26107533 “Science of Atomic Layers,” 26102012 “π-System Figuration” and 25000003 “Specially Promoted Research”).
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Pu, J., Takenobu, T. (2015). Functional Nanomaterial Devices. In: Ogawa, S. (eds) Organic Electronics Materials and Devices. Springer, Tokyo. https://doi.org/10.1007/978-4-431-55654-1_7
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