A durable gas sensor based on AgVO3/TiO2 nanoheterostructures to ethanol gas

“…34–38 Among these, AgVO 3 , featuring both metastable α-AgVO 3 and stable β-AgVO 3 phases, is believed to exhibit superior electrochemical performance owing to its high molar ratio of Ag to V. 39,40 The unique tunnel structure of β-AgVO 3 contributes to its enhanced electrochemical performance compared to α-AgVO 3 , 40,41 thus making it a promising material for gas sensing applications. 42–44 Previous study has reported the fabrication of single β-AgVO 3 nanowires having a response of 1.04 exposing to 50 ppm H 2 S at an operating temperature of 250 °C by Mai et al 42 Additionally, Zhou et al 43 developed AgVO 3 /TiO 2 nanowires with a response of 1.2 towards 100 ppm ETOH at room temperature. Lin et al 44 focused on AgVO 3 nanowires for detecting humidity ranging from 20% relative humidity (RH) to 90% RH at room temperature.…”

Preparation and NH₃ gas-sensing properties of Ag/β-AgVO₃ nanorods

“…34–38 Among these, AgVO 3 , featuring both metastable α-AgVO 3 and stable β-AgVO 3 phases, is believed to exhibit superior electrochemical performance owing to its high molar ratio of Ag to V. 39,40 The unique tunnel structure of β-AgVO 3 contributes to its enhanced electrochemical performance compared to α-AgVO 3 , 40,41 thus making it a promising material for gas sensing applications. 42–44 Previous study has reported the fabrication of single β-AgVO 3 nanowires having a response of 1.04 exposing to 50 ppm H 2 S at an operating temperature of 250 °C by Mai et al 42 Additionally, Zhou et al 43 developed AgVO 3 /TiO 2 nanowires with a response of 1.2 towards 100 ppm ETOH at room temperature. Lin et al 44 focused on AgVO 3 nanowires for detecting humidity ranging from 20% relative humidity (RH) to 90% RH at room temperature.…”

Preparation and NH₃ gas-sensing properties of Ag/β-AgVO₃ nanorods

Highly stable flexible ozone gas sensors using Mn3O4 nanoparticles-decorated IGZO thin films through the SILAR method

The highly efficient photodegradation of 4-bromophenol by TiO2/g-C3N4 nano photocatalyst with LED visible light