Highly Sensitive, Selective, and Flexible NO 2 Chemiresistors Based on Multilevel Structured Three-Dimensional Reduced Graphene Oxide Fiber Scaffold Modified with Aminoanthroquinone Moieties and Ag Nanoparticles

• Published in: ACS applied materials & interfaces Vol. 11; no. 9; pp. 9309 - 9316
• Main Authors: Li, Fang, Peng, Huifen, Xia, Dan, Yang, Jinzheng, Yang, Kai, Yin, Fuxing, Yuan, Wenjing
• Format: Journal Article
• Language: English
• Published: United States 06.03.2019
• Subjects: NO2; gas sensor; multilevel structures; RGO; flexible
• ISSN: 1944-8244; 1944-8252
• DOI: 10.1021/acsami.8b20462

Highly sensitive, selective, and room-temperature-performing gas sensors have always been the pursuit in the sensing field for practical applications. However, the existing gas sensors can seldom satisfy the aforementioned requirements. Here, we integrate zero-dimensional Ag nanoparticles (AgNPs), one-dimensional polymer fibers, and two-dimensional aminoanthroquinone-functionalized reduced graphene oxide (AQRGO) sheets into a three-dimensional sensing scaffold (AgNP-3D-AQRGO) for high-performance NO sensing. The AQ moieties and AgNPs are decorated onto the RGO sheets through a wet chemical route. Electrospinning and self-assembly techniques are employed to assemble the polymer fibers and the functional RGO sheets into a three-dimensional scaffold. The resulting AgNP-3D-AQRGO-based gas sensor can perform at room temperature and exhibits excellent sensing performance for NO , including an ultrahigh sensitivity (10.3 ppm ), an ultralow limit of detection (0.6 ppb), and an extremely remarkable selectivity to solely NO molecules. Furthermore, the sensor is also highly flexible, demonstrating great potential for portable and real-time monitoring of toxic gas in personal mobile electronics.