Y-doped In2O3 hollow nanocubes for improved triethylamine-sensing performance
Triethylamine is a typical volatile organic compound, which directly affects people's lives. There is high demand to find an effective method to detect triethylamine. Gas sensors based on metal oxide semiconductors with unique advantages have been widely researched. Herein, a Y-doped In2O3 holl...
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Veröffentlicht in: | New journal of chemistry 2021-04, Vol.45 (15), p.6773-6779 |
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Sprache: | eng |
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Zusammenfassung: | Triethylamine is a typical volatile organic compound, which directly affects people's lives. There is high demand to find an effective method to detect triethylamine. Gas sensors based on metal oxide semiconductors with unique advantages have been widely researched. Herein, a Y-doped In2O3 hollow nanocube-based triethylamine gas sensor has been studied. Y-doped In2O3 hollow nanocubes were obtained by a simple hydrothermal approach and a subsequent annealing process. The structure, morphology and chemical constitution of the undoped In2O3 and the Y-doped In2O3 were studied by XRD, SEM, TEM and XPS, respectively. Furthermore, the sensing performances of gas sensors based on the undoped In2O3 and Y-doped In2O3 hollow nanocubes were analysed in detail. The results showed that the Y-doped In2O3 hollow nanocubes exhibit significantly enhanced TEA sensing performance compared to the undoped In2O3, including the gas response and recovery speed. In addition, the Y-doped In2O3 sample exhibits excellent gas selectivity, reproducibility and long-term stability. As a result, the improved TEA sensing characteristics are primarily ascribed to the formation of the hollow nanostructure and the introduction of oxygen vacancies. |
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ISSN: | 1144-0546 1369-9261 |
DOI: | 10.1039/d1nj00452b |