The exceptional physical and chemical properties of nano-semiconductors make these materials ideal for use in next generation technologies, such as nanoelectronics. In particular, nanostructured semiconducting films are employed as receptor units to transform chemical information of the surrounding gaseous environment into analytically useful signals in miniaturized sensors. Nowadays, due to their low cost, flexibility of production, ease of use and long-term stability, chemoresistive gas sensor are top-tier devices for the detection of a wide range of gases. The aim of this presentation is to provide an overview of recent trends in this field with a focus on the functional material characteristics and the understanding of gas sensing mechanism.
Recent trends in chemoresistive gas sensors with nanostrcutured semiconductors
Vincenzo Guidi
;Elena Spagnoli;Barbara Fabbri;Arianna Rossi;Francesco Tralli;
2023
Abstract
The exceptional physical and chemical properties of nano-semiconductors make these materials ideal for use in next generation technologies, such as nanoelectronics. In particular, nanostructured semiconducting films are employed as receptor units to transform chemical information of the surrounding gaseous environment into analytically useful signals in miniaturized sensors. Nowadays, due to their low cost, flexibility of production, ease of use and long-term stability, chemoresistive gas sensor are top-tier devices for the detection of a wide range of gases. The aim of this presentation is to provide an overview of recent trends in this field with a focus on the functional material characteristics and the understanding of gas sensing mechanism.I documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
