Nanowires are significant potential candidates for the realization of the next generation of sensors since they offer high surface-to-volume-ratios, Debye length comparable to interacting molecules and they can be incorporated into microelectronic devices. Therefore, TiO2 electrospun nanofibers based chemoresistors were successfully designed, manufactured and investigated in order to obtain versatile and highly performing sensors for gas and volatile chemicals. Ease of deposition technique and its cost effective approach, strong adhesion of the fibers on the substrate and stability over time, quick and selective responses to low concentrations of several classes of VOCs, were some of the investigated basic features of the provided sensors.
Characterization and VOC-Sensing Properties of an electrospun nanofibrous TiO2 Based Sensor
E Zampetti;A Bearzotti
2011
Abstract
Nanowires are significant potential candidates for the realization of the next generation of sensors since they offer high surface-to-volume-ratios, Debye length comparable to interacting molecules and they can be incorporated into microelectronic devices. Therefore, TiO2 electrospun nanofibers based chemoresistors were successfully designed, manufactured and investigated in order to obtain versatile and highly performing sensors for gas and volatile chemicals. Ease of deposition technique and its cost effective approach, strong adhesion of the fibers on the substrate and stability over time, quick and selective responses to low concentrations of several classes of VOCs, were some of the investigated basic features of the provided sensors.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
