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Electrospun SnO2 nanofiber mats with thermo-compression step for gas sensing applications |
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| Authors: | Il-Doo Kim Eun-Kyung Jeon Seung-Hoon Choi Duck-Kyun Choi Harry L Tuller |
| Affiliation: | 1. Optoelectronic Materials Center, Korea Institute of Science and Technology, PO Box?131, Cheongryang, Seoul, Republic of Korea 2. Department of Materials Science and Engineering, Hanyang University, Hangdang-dong, Seoul, Republic of Korea 3. Department of Materials Science and Engineering, Massachusetts Institute of Technology, 77 Massachusetts Ave., Cambridge, MA, 02139, USA |
| Abstract: | SnO2 nanofiber mats fabricated through electrospinning followed by thermo-compression and subsequent calcination steps exhibited unique morphologies facilitating efficient gas transport into the layers combined with high surface area (~73.5 m2/g, measured by BET) and small grain size (~5–15 nm), which are well suited for ultrasensitive gas detection. Single SnO2 nanofibers were found to have a belt-like structure of closely packed nanocrystallites, facilitating excellent adhesion to the substrate and good electrical contact to the electrodes. I–V measurements of single SnO2 nanofibers displayed ohmic behavior with electrical conductivity of 1.5 S/cm. Gas sensor prototypes comprising a random network of SnO2 fibers exhibited high sensitivity when exposed to NO2 at 225°C and CO at 300°C. A detection limit of 150 ppb NO2 at 185°C was estimated by extrapolating the sensitivity results obtained on exposure to higher gas concentrations, demonstrating potential of achieving ultra-sensitive gas detection at low operating temperatures enabled by the present synthesis method. |
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