AI Article Synopsis
- Single-walled carbon nanotube (SWCNT) films are being explored as a replacement for indium tin oxide in transparent and conductive electronics, showcasing their potential advantages.
- Researchers successfully produced high-quality SWCNT transparent conducting films (TCFs) using ethanol as a carbon source through a novel floating catalyst chemical vapor deposition method.
- The resulting films show a competitive sheet resistance of 95 Ω sq at 90% transmittance after doping, with a mean bundle length of 27.4 μm and a high concentration of semiconducting SWCNTs, primarily of the armchair type.
Article Abstract
Single-walled carbon nanotube (SWCNT) films have great potential to replace indium tin oxide films for applications in transparent and conductive electronics. Here we report a high yield production of SWCNT transparent conducting films (TCFs) by the floating catalyst chemical vapor deposition method using ethanol as the carbon source. To the best of our knowledge, this is the first report regarding SWCNT TCFs using ethanol as the carbon source. The fabricated uniform SWCNT TCFs exhibit a competitive sheet resistance of 95 Ω sq at 90% transmittance after doping with AuCl. The SWCNT TCFs possess high quality and the mean length of SWCNT bundles is approximately 27.4 μm. Furthermore, the concentration of semiconducting SWCNTs is 75-77%. Additionally, the chirality maps obtained from electron diffraction analysis demonstrate that our SWCNTs are biased towards the armchair type.
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| http://dx.doi.org/10.1039/c7nr05554d | DOI Listing |
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