MOF-derived nest-like hierarchical In2O3 structures with enhanced gas sensing performance for formaldehyde detection at low temperature

Formaldehyde (HCHO), as one kind of human carcinogen, exists in indoor home decoration materials, which is a potential threat to human health. Therefore, the development of a portable gas-sensing technology for high efficiency detection of HCHO is of great worth for human health and environmental monitoring. Herein, the nest-like hierarchical In2O3 structures derived from metal-organic framework (MOF) were prepared and the efficient detection of HCHO gas was realized. The sensor generates high response values of 9.47 to 20 ppm HCHO at low temperature of 140 degrees C. Besides, the sensor shows good response and recovery characteristics, and the response and recovery time 20 s and 40 s, respectively. Moreover, the sensor possesses good reproducibility and selec-tivity. This work provides a new gas-sensing technology for HCHO detection, which holds important application value for the sensitive detection of formaldehyde in the environment.

Automated summary

In this study, nest-like hierarchical In2O3 structures were prepared for efficient detection of formaldehyde gas. The sensor showed good response and recovery characteristics, with response and recovery times of 20 s and 40 s, respectively. It also exhibited good reproducibility and selectivity, making it valuable for sensitive detection of formaldehyde in the environment.