Journal
ACS OMEGA
Volume 3, Issue 2, Pages 1977-1982Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsomega.7b01958
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Funding
- SERB-DST for national postdoctoral fellowship
- e Board of Research in Nuclear Sciences (BRNS)
- Department of Atomic Energy (DAE)
- Government of India
- DST Nanomission (Thematic Unit)
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We report the sensing properties of an interesting ternary oxide CuCo2O4 (CCO) which comprises two earth-abundant transition elements, both capable of supporting multiple valence states. We have used a synthesis protocol, which renders unique nanoplatelet-type morphology but with a degree of biphasic character (CuO as a secondary phase in addition to the defect-spinel Cu1-xCo2O4). This sample constitution can be controlled through the use of cation off-stoichiometry, and the same also influence the sensing response significantly. In particular, a Co 10 at. % excess CCO (CCO-Co(10)) case exhibits a good response (similar to 7.9% at 400 ppm) for NH3 gas with a complete recovery at room temperature (23 degrees C, +/- 1 degrees C) in 57% RH. The material performance was investigated for other gases such as H2S, NO2, and CO. A good response is observed for H2S and NO2 gases but without a recovery; however, for CO, a poor response is noted. Herein, we discuss the specific results for ammonia sensing for the CCO-Co(10) case in detail via the use of different characterizations and outline the difference between the cases of the single-phase defect-stabilized material versus nonpercolating biphasic material.
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