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Layered Heterostructure of Graphene and TiO<sub>2</sub> as a Highly Sensitive and Stable Photoassisted NO<sub>2</sub> Sensor

Artjom Berholts, Margus Kodu, P. Rubin, Tauno Kahro, Harry Alles, Raivo Jaaniso

2024ACS Applied Materials & Interfaces15 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide As an atomically thin electric conductor with a low density of highly mobile charge carriers, graphene is a suitable transducer for molecular adsorption. In this study, we demonstrate that the adsorption properties can be significantly enhanced with a laser-deposited TiO 2 nanolayer on top of single-layer CVD graphene, whereas the effective charge transfer between the TiO 2 -adsorbed gas molecules and graphene is retained through the interface. The formation of such a heterostructure with optimally a monolayer thick oxide combined with ultraviolet irradiation (wavelength 365 nm, intensity <1 mW/mm 2 ) dramatically enhances the gas-sensing properties. It provides an outstanding sensitivity for detecting NO 2 in the range of a few ppb to a few hundred ppb-s in air, with response times below 30 s at room temperature. The effect of visible light (436 and 546 nm) was much weaker, indicating that the excitations due to light absorption in TiO 2 play an essential role, while the characteristics of gas responses imply the involvement of both photoinduced adsorption and desorption. The sensing mechanism was confirmed by theoretical simulations on a NO 2 @Ti 8 O 16 C 50 complex under periodic boundary conditions. The proposed sensor structure has significant additional merits, such as relative insensitivity to other polluting gases (CO, SO 2, NH 3 ) and air humidity, as well as long-term stability (>2 years) in ambient air. The results pave the way for an emerging class of gas sensor structures based on stacked 2D materials incorporating highly charge-sensitive transducer and selective receptor layers.

Topics & Concepts

Materials scienceGrapheneHeterojunctionOptoelectronicsAdsorptionMonolayerOxideAbsorption (acoustics)Relative humidityCharge carrierNanotechnologyChemical physicsComposite materialThermodynamicsPhysicsOrganic chemistryChemistryMetallurgyGas Sensing Nanomaterials and SensorsGraphene research and applicationsAnalytical Chemistry and Sensors
Layered Heterostructure of Graphene and TiO<sub>2</sub> as a Highly Sensitive and Stable Photoassisted NO<sub>2</sub> Sensor | Litcius