基于压电纳米发电机的可穿戴式自供电氨气预警有害气体监测装置

Organic Photonics + Electronics Pub Date : 2023-09-28 DOI:10.1117/12.2678555

Deepak Punetha, Ajay Mahaputra Kumar, S. Chakrabarti, S. Pandey

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引用次数: 0

摘要

由于空气污染的严重和纳米技术的迅速发展，便携式和可穿戴的传感设备在人们的生活中变得越来越重要。rGO/WO3/PVDF三级纳米复合材料被用作监测装置，具有对氨有害气体的显著选择性，良好的响应性(Rg/Ra = 4.72, 50 ppm)和良好的线性灵敏度(10-500 ppm)。最重要的是，自供电的rGO/WO3/PVDF监测单元比典型的室温半导体气体传感器具有更快的响应/恢复时间。三级纳米复合材料在需要自供电的氨气传感应用中的可行性通过概念验证演示得到了证明。

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Wearable piezoelectric nanogenerator-based hazardous gas monitoring gadget for self-powered ammonia early warning

Portable and wearable sensing devices are growing increasingly essential to people's lives as a result of the seriousness of air pollution and the rapid advancement of nanotechnology. The rGO/WO3/PVDF tertiary nanocomposite is employed as a monitoring device and boasts benefits like remarkable selectivity for ammonia hazardous gas, good responsiveness (Rg/Ra = 4.72, 50 ppm), and excellent linear sensitivity (10-500 ppm). Most crucially, the self-powered rGO/WO3/PVDF monitoring unit has a substantially quicker response/recovery time than the typical room-temperature semiconductor gas sensor. The viability of the tertiary nanocomposite for applications requiring self-powered ammonia gas sensing is demonstrated through a proof of concept demonstration.

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Organic Photonics + Electronics

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