4.5 Review

N-Doped Graphene and Its Derivatives as Resistive Gas Sensors: An Overview

Journal

CHEMOSENSORS
Volume 11, Issue 6, Pages -

Publisher

MDPI
DOI: 10.3390/chemosensors11060334

Keywords

graphene; reduced graphene oxide; nitrogen; doping; DFT; gas sensor

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Resistance gas sensors based on metal oxides are widely used, but their high operating temperature calls for alternative materials. Graphene and its derivatives have shown promise in gas sensing due to their 2D structure with high surface area and sensitivity to carrier concentration changes. N-doping of graphene can enhance gas-sensing features by inducing band gaps, generating defects, and improving conductivity. This article discusses the gas-sensing properties of N-doped graphene, covering both experimental and theoretical studies.
Today, resistance gas sensors which are mainly realized from metal oxides are among the most used sensing devices. However, generally, their sensing temperature is high and other materials with a lower operating temperature can be an alternative to them. Graphene and its derivatives with a 2D structure are among the most encouraging materials for gas-sensing purposes, because a 2D lattice with high surface area can maximize the interaction between the surface and gas, and a small variation in the carrier concentration of graphene can cause a notable modulation of electrical conductivity in graphene. However, they show weak sensing performance in pristine form. Hence, doping, and in particular N doping, can be one of the most promising strategies to enhance the gas-sensing features of graphene-based sensors. Herein, we discuss the gas-sensing properties of N-doped graphene and its derivatives. N doping can induce a band gap inside of graphene, generate defects, and enhance the conductivity of graphene, all factors which are beneficial for sensing studies. Additionally, not only is experimental research reviewed in this review paper, but theoretical works about N-doped graphene are also discussed.

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