Three-Dimensional Alkalized V<sub>2</sub>CT<sub><i>x</i></sub> MXene/NH<sub>2</sub>-Graphene Heterojunction Nanocomposites for Ammonia Detection at Room Temperature
Jiangwei Ma, Haichao Zhai, Ziwei Zhang, Maoyun Di, Zhigang Sun, Kewei Zhang, Jifan Hu, Huiqing Fan
Abstract
Two-dimensional MXene is considered a potential gas sensing material owing to its excellent conductivity, solution processability, plentiful surface terminations, and alterable interlayer spacing. Herein, we present the composites of the alkalized V 2 CT x MXene and NH 2 -graphene (NG) prepared by simple sonication dispersion for ammonia (NH 3 ) detection at room temperature. The alkalized V 2 CT x MXene was negatively charged, owing to the presence of abundant oxygen-containing functional groups, which could interact with NG through electrostatic attraction. The characterization results indicated that NG mainly connects to the surface of the alkalized V 2 CT x MXene nanosheets. The gas response of the three-dimensional alkalized V 2 CT x MXene/NH 2 -graphene (AVNG) sensor was 21 times stronger than that of the alkalized V 2 CT x MXene. Furthermore, the fabricated sensor based on the AVNG composites exhibited excellent selectivity to NH 3, a moderate response/recovery time, good durability, and stability. The gas sensing mechanism of the AVNG sensor was evaluated, and the synergistic effect of the interlayer swelling and n–p heterojunctions was proposed.