최다현
2019-11-21T02:33:07Z
2019-11-21T02:33:07Z
2019-04
NEW JOURNAL OF CHEMISTRY, v. 43, No. 20, Page. 7814-7821
1144-0546
1369-9261
https://pubs.rsc.org/en/content/articlehtml/2019/nj/c9nj00289h
https://repository.hanyang.ac.kr/handle/20.500.11754/113081
We have introduced a new fabrication process for a CO gas sensor using a kinetically sprayed Cu thin layer, followed by oxidation at 250 degrees C. The resulting 200 nm-thick CuO thin layer exhibited semi-transparent optical properties. The as-fabricated CO gas sensor was tested under two conditions with varying CO gas concentration ranging from 1000 to 5000 ppm and operating temperatures of 200, 250, and 300 degrees C: (1) a reaction time of 600 s and a recovery reaction time in an air atmosphere of 1800 s; and (2) a gas reaction time of 1200 s and a recovery time of 7200 s. As a result, the sensor response showed its improvement under a high operating temperature of 300 degrees C with a reaction time of 600 s and a recovery time of 1800 s regardless of the CO gas concentration. In contrast, the response of the CuO gas sensor showed its maximum value of 0.209 at a lower temperature of 200 degrees C, due to a sufficient recovery time of 7200 s. Therefore, we have proved that a kinetically sprayed CuO thin layer can be operated with varying CO gas concentration, as well as varying the temperature and time, to be useful as a gas sensor.
This work was supported by the research fund of Hanyang University (HY-2019-N).
en_US
ROYAL SOC CHEMISTRY
Fabrication of a kinetically sprayed CuO ultra-thin film to evaluate CO gas sensing parameters
Article
20
43
10.1039/c9nj00289h
7814-7821
NEW JOURNAL OF CHEMISTRY
Choi, Dahyun
Kim, Hyojun
Son, Minhee
Kim, Hyungsub
Lee, Hee Chul
Lee, Caroline Sunyong
2019002037
E
RESEARCH INSTITUTE[E]
RESEARCH INSTITUTE OF ENGINEERING & TECHNOLOGY
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