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Exploitation of Schottky-Junction-based Sensors for Specifically Detecting ppt-Concentration Gases

Shipu Xu, Chen Yang, Ye Tian, Jing Lü, Ying Jiang, Hanjie Guo, Jinkui Zhao, Hailin Peng

2022ACS Sensors14 citationsDOI

Abstract

Gas species and concentrations of human-exhaled breath correlate with health, wherein disease markers contain volatile organic compounds (VOCs) of concentrations in parts per billion. It is expected that a gas-sensing strategy possesses a gas specificity and detection limit in the parts per trillion (ppt) range; however, it is still a challenge. This investigation has exploited the Schottky junction of gas sensors for detecting the reactance signal of ppt VOC, aiming for a specific and rapid detection toward disease marker acetone. In this new sensing paradigm, formed by the engineered energy band between metal-semiconductor contact, the Schottky junction is accessed to specific modulation of different adsorbate dopings and the corresponding reactance signal is measured. Regarding the detection toward ppt concentration of acetone, this sensing paradigm possesses rapid (∼100 s) and room-temperature response, molecular specificity, and 34 ppt of detection limit. The proposed detection paradigm is demonstrated to show a high feasibility toward detection of disease marker acetone.

Topics & Concepts

Materials scienceSchottky diodeOptoelectronicsNanotechnologyEnvironmental scienceChemistryEnvironmental chemistryDiodeGas Sensing Nanomaterials and SensorsAnalytical Chemistry and SensorsAdvanced Chemical Sensor Technologies