ARIANNA ROSSI scite author profile

Carbon capture, storage, and utilization have become familiar terms when discussing climate change mitigation actions. Such endeavors demand the availability of smart and inexpensive devices for CO2 monitoring. To date, CO2 detection relies on optical properties and there is a lack of devices based on solid-state gas sensors, which can be miniaturized and easily made compatible with Internet of Things platforms. With this purpose, we present an innovative semiconductor as a functional material for CO2 detection. A nanostructured In2O3 film, functionalized by Na, proves to enhance the surface reactivity of pristine oxide and promote the chemisorption of even rather an inert molecule as CO2. An advanced operando equipment based on surface-sensitive diffuse infrared Fourier transform is used to investigate its improved surface reactivity. The role of sodium is to increase the concentration of active sites such as oxygen vacancies and, in turn, to strengthen CO2 adsorption and reaction at the surface. It results in a change in film conductivity, i.e., in transduction of a concentration of CO2. The films exhibit excellent sensitivity and selectivity to CO2 over an extra-wide range of concentrations (250–5000 ppm), which covers most indoor and outdoor applications due to the marginal influence by environmental humidity.

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Functionalization of indium oxide for empowered detection of CO2 over an extra-wide range of concentrations

ROSSI

Fabbri

Spagnoli

et al. 2023

Preprint

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Carbon capture, storage and utilization have become familiar terms when discussing climate change mitigation actions. Such endeavors demand the availability of smart and inexpensive devices for CO monitoring. To date, CO detection relies on optical properties and there is a lack of devices based on solid-state devices, which can be miniaturized and easily made compatible with IoT platforms. With this purpose, we present an innovative semiconductor as functional material for CO detection. Nanostructured InO films, functionalized by Na, proves to enhance the surface reactivity of pristine oxide so much that even rather stable a molecule as CO is reduced. An advanced operando equipment based on surface-sensitive diffuse infrared Fourier transform is used to investigate its improved surface reactivity. The role of sodium is to increase the concentration of active sites such as oxygen vacancies and, in turn, to strengthen CO adsorption and reaction at the surface. It results in a change in film conductivity, i.e., in transduction of a concentration of CO. The films exhibit excellent sensitivity and selectivity to CO over an extra-wide range of concentration (250-5000 ppm), which covers most indoor and outdoor applications with marginal influence by environmental humidity.

show abstract

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ARIANNA ROSSI

Functionalization of Indium Oxide for Empowered Detection of CO₂ over an Extra-Wide Range of Concentrations

Functionalization of indium oxide for empowered detection of CO2 over an extra-wide range of concentrations

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ARIANNA ROSSI

Functionalization of Indium Oxide for Empowered Detection of CO2 over an Extra-Wide Range of Concentrations

Functionalization of indium oxide for empowered detection of CO2 over an extra-wide range of concentrations

Contact Info

Product

Resources

About

Functionalization of Indium Oxide for Empowered Detection of CO₂ over an Extra-Wide Range of Concentrations