posted on 2019-01-14, 00:00authored byHong-Seok Jo, Hyuk-Jin Kwon, Tae-Gun Kim, Chan-Woo Park, Seongpil An, Alexander L. Yarin, Sam S. Yoon
Electrospun metal-plated nanofibers and supersonically sprayed nanowires were used to fabricate hybrid films exhibiting superior low sheet resistance and transparency. The films are suitable to serve as thermal sensors and heaters. Such hybrid transparent conducting films are highly flexible and thus body-attachable and wearable. They can be used as a body-temperature monitors and heaters. The employed hybrid approach improved the sheet resistance diminishing it to a minimum, while maintaining transparency. In addition, the low sheet resistance of the films facilitates their powering with a low-voltage battery and thus, portability. The thermal sensing and heating capabilities were demonstrated for such films with various sheet resistances and degrees of transparency. The sensing performance increased with the improvement in the sheet resistance. The uniform distribution of the metal-plated nanofibers and nanowires resulted in a uniform Joule heating contributing to an efficient convection heat transfer from the heaters to the surrounding, demonstrated by an improved convective heat transfer coefficient.
History
Publisher Statement
Copyright @ Royal Society of Chemistry
Citation
Jo, H. S., Kwon, H. J., Kim, T. G., Park, C. W., An, S., Yarin, A. L., & Yoon, S. S. (2018). Wearable transparent thermal sensors and heaters based on metal-plated fibers and nanowires. Nanoscale, 10(42), 19825-19834. doi:10.1039/c8nr04810j