In environmentally fragile settings, harmful gases may put both human health and sensitive materials at risk. Indeed, effective monitoring of hazardous compounds must be conducted without affecting the surroundings. In these circumstances, visible-light photoactivated metal-oxide semiconductor gas sensors are a suitable alternative to their thermoactivated counterparts. Al-doped ZnO emerges as a promising material for more sustainable gas sensors in such applications.
Al-doped ZnO Gas Sensors Toward Safe and Effective Monitoring in Protected Environments
Emanuela Tavaglione;Arianna Rossi;Vincenzo Guidi;Barbara Fabbri
2025
Abstract
In environmentally fragile settings, harmful gases may put both human health and sensitive materials at risk. Indeed, effective monitoring of hazardous compounds must be conducted without affecting the surroundings. In these circumstances, visible-light photoactivated metal-oxide semiconductor gas sensors are a suitable alternative to their thermoactivated counterparts. Al-doped ZnO emerges as a promising material for more sustainable gas sensors in such applications.File in questo prodotto:
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