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ZnO Nanosheets Modified with Graphene Quantum Dots and SnO<sub>2</sub> Quantum Nanoparticles for Room-Temperature H<sub>2</sub>S Sensing

Shaofeng Shao, Xin Chen, Yunyun Chen, Lei Zhang, Hyoun Woo Kim, Sang Sub Kim

2020ACS Applied Nano Materials78 citationsDOI

Abstract

Overcoming the low selectivity issue of semiconductor metal oxide (SMO)-based gas sensors at room temperature and realizing the accurate detection of trace disease biomarkers are highly desirable for widespread deployments of sensors in exhaled breath. Here, a self-assembly strategy is proposed to create a graphene quantum dot (GQD)-functionalized porous and hierarchical SnO2 quantum nanoparticle (SnO2QNP)/ZnO nanostructure. SnO2QNP/ZnO nanosheets self-assembled directly on the digital integrated electrodes with a post-synthetic humidity treatment; the construction of a GQD and SnO2QNP-loaded ZnO nanosheet heterostructure is highly controllable and reproducible. The strong synergistic effect and p–n heterojunction between the p-type GQD and n-type SnO2 and ZnO effectively enlarged the resistance variation due to the change in oxygen adsorption. In comparison with pristine ZnO and SnO2/ZnO sensors, the GQD-modified hierarchical SnO2QNP/ZnO nanostructure exhibited a remarkably high response (S = 15.9 for 0.1 ppm H2S), rapid response/recovery time (14/13 s), and good selectivity toward H2S against other interfering gases. In particular, we applied principal component analysis for analyzing the sensing performance of the GQD–SnO2QNP/ZnO sensor and found that the combined effects of GQD/SnO2QNP/ZnO heterointerfaces contributed to the improvement of selectivity of sensors. The results demonstrate that the GQD-modified SMO with the hierarchical structure has a high potential in the non-invasive exhaled diagnosis.

Topics & Concepts

Materials scienceQuantum dotGraphene quantum dotHeterojunctionGrapheneNanotechnologyNanostructureNanoparticleMesoporous materialOptoelectronicsNanocompositeSemiconductorChemistryCatalysisBiochemistryGas Sensing Nanomaterials and SensorsCarbon and Quantum Dots ApplicationsElectrochemical sensors and biosensors
ZnO Nanosheets Modified with Graphene Quantum Dots and SnO<sub>2</sub> Quantum Nanoparticles for Room-Temperature H<sub>2</sub>S Sensing | Litcius