Sensitive detection of water/oxygen molecule adsorption and reaction on a titanium oxide nanosheet with a graphene field effect transistor

Abstract: We have investigated molecule adsorption phenomena on a chemically active surface of titanium oxide nanosheet by coupling with an electrically sensitive graphene field effect transistor (FET). Super-hydrophilic surface of the titanium oxide nanosheet forms a water-layer in ambient air which exhibits a large hysteresis of drain current in the hybrid FET for sweeping gate-voltage. The large hysteresis disappears in vacuum, which indicates physically adsorbed water molecules on the surface of the titanium oxide n… Show more

“…On the other hand, oxygen plays a crucial role in the sensing mechanism. Oxygen adsorbed on the TiO x surface reacts with electrons to form negatively charged oxygen species. , Gas sensors perform better at higher temperatures because of increased reaction rates between gas molecules and the sensor surface, enhancing sensitivity and response time. Elevated temperatures also improve the conductivity of sensor materials, leading to more noticeable changes in the electrical properties upon gas exposure.…”

Highly Efficient Room Temperature NO₂ Sensor Using Two-Phase TiO_x Heterogeneous Nanoparticles

“…On the other hand, oxygen plays a crucial role in the sensing mechanism. Oxygen adsorbed on the TiO x surface reacts with electrons to form negatively charged oxygen species. , Gas sensors perform better at higher temperatures because of increased reaction rates between gas molecules and the sensor surface, enhancing sensitivity and response time. Elevated temperatures also improve the conductivity of sensor materials, leading to more noticeable changes in the electrical properties upon gas exposure.…”

Highly Efficient Room Temperature NO₂ Sensor Using Two-Phase TiO_x Heterogeneous Nanoparticles