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2023年论文

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Simple preparation of yolk-shell ZnCr2O4 microspheres and their application to xylene gas sensor

发布时间:2023.12.19点击:

【作者】:Zhao, L.; Zhou, C.; Zhou, Y.; Wang, T.; Liu, F.; Yan, X.; Lu, G.; Sun, P

【题目】:Simple preparation of yolk-shell ZnCr2O4 microspheres and their application to xylene gas sensor

【关键词】:Gas sensor; Yolk-shell ZnCr2O4 microspheres; Xylene; Selectivity; High sensitivity

【版面信息】:Sensors and Actuators B-Chemical 2023, 390, 133929.

摘要:

    Spinel-type oxides have attracted more and more attention due to their high thermodynamic stability, good catalytic characteristic and flexibly tunable features. Herein, we report the synthesis of yolk-shell ZnCr2O4microspheres with superior xylene sensing properties by a one-step solvothermal approach. The gas sensing properties of the as-prepared ZnCr2O4microspheres were investigated. The sensor based on yolk-shell ZnCr2O4 microspheres showed excellent selectivity to xylene having a high response value of 200.7-100 ppm xylene, which was almost 77 times than that of Cr2O3microspheres at 225 degrees C. As for the detection limit, the response value of sensor to 0.5 ppm xylene was 1.2. In addition, after 22 days of measurement, it could still keep the response of nearly 200-100 ppm xylene, indicating good long-term stability. The excellent gas sensing performances of sensor to xylene can be ascribed to the yolk-shell architecture with a large specific surface area and the high surface adsorbed oxygen species concentration.


原文链接:https://www.sciencedirect.com/science/article/pii/S0925400523006445

论文作者 Zhao, L.; Zhou, C.; Zhou, Y.; Wang, T.; Liu, F.; Yan, X.; Lu, G.; Sun, P 论文关键词 Gas sensor; Yolk-shell ZnCr2O4 microspheres; Xylene; Selectivity; High sensitivity
版面信息 Sensors and Actuators B-Chemical 2023, 390, 133929.