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2023年论文

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Interfacial oxygen vacancies and energy-level engineering on CeO2-PPy-rGO nanocomposites towards boosted NO2 sensor performance

发布时间:2023.12.19点击:

【作者】:Zhou, W.; Han, J.; Kong, D.; Gao, Y.; Gao, Y.; Wang, Y.; Lu, G.

【题目】:Interfacial oxygen vacancies and energy-level engineering on CeO2-PPy-rGO nanocomposites towards boosted NO2 sensor performance

【关键词】:NO2 sensor; Cerium oxide; Polypyrrole; Graphene; Oxygen vacancy

【版面信息】:Sensors and Actuators B-Chemical 2023, 396, 134614

摘要:

    Monitoring of harmful nitrogen dioxide (NO2) gases is imperative for our health and environmental protection. The room-temperature operating NO2 gas sensors still suffer a limited sensitivity and slow response/recovery rate. In this work, novel CeO2-PPy-rGO nanocomposites were synthesized for improved NO2 sensing performance. The decoration of rGO introduced additional oxygen vacancies on CeO2 for enhancing the sensor response. PPy acted as a buffer layer of energy level connecting CeO2 and rGO components and promoted the response and recovery rate. The designed sensor demonstrated ppb-level NO2 detection in p-type sensing behaviors with rapid response/recovery characteristics as expected at room temperature (RT). The hybrid sensor also showed excellent selectivity, long-term stability and extremely low detection limit toward NO2. The significantly enhanced sensing properties to NO2 could be attributed to activity enhancement, a gently gradient energy level and π-π stacking between rGO and PPy. This study offers a perspective on the design of CeO2-based gas sensors for NO2 detection at RT.


原文链接:https://www.sciencedirect.com/science/article/pii/S0925400523013291

论文作者 Zhou, W.; Han, J.; Kong, D.; Gao, Y.; Gao, Y.; Wang, Y.; Lu, G. 论文关键词 NO2 sensor; Cerium oxide; Polypyrrole; Graphene; Oxygen vacancy
版面信息 Sensors and Actuators B-Chemical 2023, 396, 134614