Room Temperature NH Selective Gas Sensors Based on Double-Shell Hierarchical SnO@polyaniline Composites

Overview

Journal Sensors (Basel)

Publisher MDPI

Specialty Biotechnology

Date 2024 Mar 28

PMID 38544087

Authors

Yuan Qu

Haotian Zheng

Yuhua Lei

Ziwen Ding

Siqi Li

Song Liu

Wei Ji

Affiliations

Soon will be listed here.

Abstract

Morphology and structure play a crucial role in influencing the performance of gas sensors. Hollow structures, in particular, not only increase the specific surface area of the material but also enhance the collision frequency of gases within the shell, and have been studied in depth in the field of gas sensing. Taking SnO as an illustrative example, a dual-shell structure SnO (D-SnO) was prepared. D-SnO@Polyaniline (PANI) (DSPx, x represents D-SnO molar content) composites were synthesized via the in situ oxidative polymerization method, and simultaneously deposited onto a polyethylene terephthalate (PET) substrate to fabricate an electrode-free, flexible sensor. The impact of the SnO content on the sensing performance of the DSPx-based sensor for NH detection at room temperature was discussed. The results showed that the response of a 20 mol% D-SnO@PANI (DSP20) sensor to 100 ppm NH at room temperature is 37.92, which is 5.1 times higher than that of a pristine PANI sensor. Moreover, the DSP20 sensor demonstrated a rapid response and recovery rate at the concentration of 10 ppm NH, with response and recovery times of 182 s and 86 s.

Citing Articles

Enhanced Acetone-Sensing Performance of a Bilayer Structure Gas Sensor Composed of a ZnO Nanorod Top Layer and a ZnFeO Nanoparticle Decorated ZnO Nanorod Bottom Layer.

Wu H, Zhu H, Zhang J, Yu J, Tang Z, Yao G Sensors (Basel). 2024; 24(23).

PMID: 39686388 PMC: 11644991. DOI: 10.3390/s24237851.

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