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Title: | An ultralow power nanosensor array for selective detection of air pollutants |
Authors: | Benedict, Samatha |
Keywords: | EEE Nanosensor array Air pollutants Semiconducting metal oxide gas |
Issue Date: | Oct-2019 |
Publisher: | IOP |
Abstract: | Semiconducting metal oxide gas sensors typically operate at a high temperature and consume hundreds of milliwatts of power. Therefore there is great demand for the development of a low-power gas-sensing technology that can sensitively and selectively detect the gas analytes present in the atmosphere. We report an ultralow-power nanosensor array platform, integrated with an independently controlled nanoheater of size 4 μm × 100 nm, which consumes ∼1.8 mW power when operated continuously at 300 °C. The heaters exhibit a fast thermal response time of less than 1 μs, and can be utilized to operate in duty cycle mode, leading to power saving. The active area of the nanosensor is 1 μm × 200 nm, defined by sensing electrodes with a nanogap of ∼200nm, leading to small form factor. As a proof of concept, each of the sensing elements in the array is functionalized with different sensing materials to demonstrate a low-power, sensitive and selective multiplexed gas-sensing technology for the simultaneous detection of CO (∼93.2% for 3 ppm at 300 °C), CO2 (∼76.3% for 1000 ppm at 265 °C), NO2 (∼2301% for 3 ppm at 150 °C) and SO2 (∼94% for 3 ppm at 265 °C). The technology described here uses scalable crossbar architecture for sensor elements, thus enabling the integration of additional sensing materials and making it customizable for specific applications. |
URI: | https://iopscience.iop.org/article/10.1088/1361-6528/ab44fd/meta http://dspace.bits-pilani.ac.in:8080/xmlui/handle/123456789/10164 |
Appears in Collections: | Department of Electrical and Electronics Engineering |
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