Advances in Synthesis and Applications of Single-Atom Catalysts for Metal Oxide-Based Gas Sensors

• Published in: Materials Vol. 17; no. 9; p. 1970
• Main Authors: Yu, Yuanting, Tan, Yiling, Niu, Wen, Zhao, Shili, Hao, Jiongyue, Shi, Yijie, Dong, Yingchun, Liu, Hangyu, Huang, Chun, Gao, Chao, Zhang, Peng, Wu, Yuhong, Zeng, Linggao, Du, Bingsheng, He, Yong
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 01.05.2024
• Subjects: Agricultural production; Aqueous solutions; Atoms & subatomic particles; Book publishing; Catalysis; Catalysts; Chemical properties; Chemical synthesis; Copper; defect engineering; Gas fields; gas sensor; Gas sensors; Gases; Gold; Graphene; Hydrogenation; materials characterization; metal oxide; Metal oxides; Methods; Oxidation; Oxides; Sensitivity enhancement; Sensors; Single atom catalysts; United States; China; single-atom catalysts; gas sensor; materials characterization; defect engineering; metal oxide
• ISSN: 1996-1944; 1996-1944
• DOI: 10.3390/ma17091970

As a stable, low-cost, environment-friendly, and gas-sensitive material, semiconductor metal oxides have been widely used for gas sensing. In the past few years, single-atom catalysts (SACs) have gained increasing attention in the field of gas sensing with the advantages of maximized atomic utilization and unique electronic and chemical properties and have successfully been applied to enhance the detection sensitivity and selectivity of metal oxide gas sensors. However, the application of SACs in gas sensors is still in its infancy. Herein, we critically review the recent advances and current status of single-atom catalysts in metal oxide gas sensors, providing some suggestions for the development of this field. The synthesis methods and characterization techniques of SAC-modified metal oxides are summarized. The interactions between SACs and metal oxides are crucial for the stable loading of single-atom catalysts and for improving gas-sensitive performance. Then, the current application progress of various SACs (Au, Pt, Cu, Ni, etc.) in metal oxide gas sensors is introduced. Finally, the challenges and perspectives of SACs in metal oxide gas sensors are presented.