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Environmental Gas Monitoring with Atomic Catalysts
This project aims to develop chemical gas sensors for environmental gas monitoring, by taking advantage of the high-performance atomically small catalysts
Keywords: Gas sensors, environmental monitoring, catalysts, indoor air quality, nanoparticles
Gas sensors play a critical role in environmental monitoring, enabling the detection of toxic gases and the assessment of indoor air quality to ensure public health and safety. High-performance sensors are essential for achieving rapid, selective, and sensitive detection, particularly in low-concentration environments. To address this need, this project focuses on developing advanced gas sensor materials by leveraging atomic-scale catalysts, which offer enhanced activity, stability, and selectivity for precise gas detection.
Gas sensors play a critical role in environmental monitoring, enabling the detection of toxic gases and the assessment of indoor air quality to ensure public health and safety. High-performance sensors are essential for achieving rapid, selective, and sensitive detection, particularly in low-concentration environments. To address this need, this project focuses on developing advanced gas sensor materials by leveraging atomic-scale catalysts, which offer enhanced activity, stability, and selectivity for precise gas detection.
The goal of this project is to develop highly sensitive and selective gas sensors by utilizing atomic-scale catalysts. By optimizing material composition and nanostructure, the project aims to enhance gas detection performance for environmental monitoring applications, including toxic gas detection and indoor air quality assessment. As the final goal, we aim to put the developed sensors to test in real field applications for detection of toxic gases.
The goal of this project is to develop highly sensitive and selective gas sensors by utilizing atomic-scale catalysts. By optimizing material composition and nanostructure, the project aims to enhance gas detection performance for environmental monitoring applications, including toxic gas detection and indoor air quality assessment. As the final goal, we aim to put the developed sensors to test in real field applications for detection of toxic gases.
shin-et-al-2020-single-atom-pt-stabilized-on-one-dimensional-nanostructure-support-via-carbon-nitride-sno2.pdf
