Crystals (Oct 2020)

Development of Co(OH)<sub>x</sub>F<sub>2−x</sub> Nanosheets for Acetone Gas Sensor Applications: Material Characterization and Sensor Performance Evaluation

  • Yaping Yan,
  • Tae-yil Eom,
  • Shiyu Xu,
  • Pil J. Yoo,
  • Changzeng Yan,
  • Joon-Shik Park,
  • Hoo-Jeong Lee

DOI
https://doi.org/10.3390/cryst10110968
Journal volume & issue
Vol. 10, no. 11
p. 968

Abstract

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This study reports the employment of Co(OH)xF2−x nanosheets, a new material in the sensor field, for gas sensor applications. We synthesize Co(OH)xF2−x nanosheets via a hydrothermal route using SiO2 sphere templates. Our material characterization confirms that the material is a densely clustered Co(OH)xF2−x nanosheet with an amorphous microstructure with some short-range ordering. Sensors based on the nanosheets demonstrate a high response of 269% toward 4.5 ppm of acetone gas at an operation temperature of 200 °C and a very low minimum detection limit of 40 ppb. It functions effectively up to a temperature below 300 °C, above which F is found to start to evaporate. Our discussion suggests that an excellent sensor performance arises from the high catalytic function of F incorporated in a high concentration in the material as well as the high specific surface area due to the morphology of densely clustered nanosheets.

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