材料科学
吸附
热液循环
化学工程
氨
多孔性
咪唑酯
沸石
沸石咪唑盐骨架
选择性
氧气
湿度
纳米技术
氨气
比表面积
水热合成
锌
氧传感器
工作温度
表征(材料科学)
图层(电子)
无机化学
混合材料
标识
DOI:10.1021/acs.cgd.5c01194
摘要
The integration of materials can generate synergistic effects, forming the core concept of a new generation of multifunctional applications. In particular, the integration of the ZnO structure with the zeolite imidazolate framework-8 (ZIF-8) has been shown to enhance gas selectivity, which is mainly achieved through the molecular sieving effect of the specific-sized porous structure of ZIF-8. In this work, a room-temperature ammonia (NH3) gas sensor based on ZnO/ZIF-8 composites was fabricated via a combination of hydrothermal synthesis, templating, and drop-casting methods. By tuning the concentration of 2-methylimidazole, the ZIF-8 content was optimized, and the ZnO/ZIF-8–2 sensor exhibited robust NH3 sensing performance at room temperature. The sensor exhibited outstanding sensitivity toward NH3 (150.16@100 ppm), approximately 16 times that of pure ZnO sensor, with a rapid response/recovery time (14.5 s/1.6 s). Furthermore, the sensor showed remarkable selectivity, repeatability, and humidity resistance. This improvement is attributed to the increased content of oxygen vacancies and adsorbed oxygen species, high carrier density, the unique lychee-like morphology and large specific surface area, and the synergistic effect of the ZnO/ZIF-8 heterojunction. This study provides a promising strategy for the efficient detection of NH3 at room temperature using ZIF-8-based hybrid materials.
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