| Literature DB >> 31825202 |
Yifan Huang1, Weicheng Jiao1, Zhenming Chu1, Siyong Wang1, Liuyang Chen1, Xinmiao Nie1, Rongguo Wang1, Xiaodong He1,2.
Abstract
Here, a high sensitivity gas sensing ink based on sulfonated rGO (S-rGO) decorated with SnS2 is synthesized for room temperature NO2 and NH3 detection. This sensing ink demonstrated an excellent sensitivity to ppb-level NO2 (17% response to 125 ppb) and sub-ppm-level NH3 (11% response to 1 ppm). The unique absorption properties of SnS2 improve the sensitivity of S-rGO 4.2 and 55 times to NO2 and NH3, respectively. Besides, the superhydrophobicity of the SnS2 endows the sensor with exceptional immunity to high relative humidity (RH). Furthermore, the sensors exhibit negligible degradation to NO2 and less than 15% degradation to NH3 in a wide range of RH from 30 (ambient humidity) to 90%. More importantly, the obtained full-written ink can be applied to common substrates, such as glass, clothes, and paper, and maintain excellent performance after being bent and twisted by 180°.Entities:
Keywords: NH3 detection; NO2 detection; SnS2; flexible sensors; functional graphene; gas sensing ink; humidity-independent
Year: 2019 PMID: 31825202 DOI: 10.1021/acsami.9b14952
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229