| Literature DB >> 29947228 |
Zhong Ma1,2, Ping Chen1, Wen Cheng1, Kun Yan1, Lijia Pan1, Yi Shi1, Guihua Yu2.
Abstract
Near-field communication (NFC) labeling technology has been recently used to endow smartphones with nonline-of-sight sensing functions to improve the environment, human health, and quality of life. For applications in detecting food spoilage, the development of a sensor with high enough sensitivity to act as a switch for an NFC tag remains a challenge. In this Letter, we developed a nanostructured conductive polymer-based gas sensor with high sensitivity of Δ R/ R0 = 225% toward 5 ppm ammonia NH3 and unprecedented sensitivities of 46% and 17% toward 5 ppm putrescine and cadaverine, respectively. The gas sensor plays a critical role as a sensitive switch in the circuit of the NFC tag and enables a smartphone to readout meat spoilage when the concentration of biogenic amines is over a preset threshold. We envision the broad potential use of such intelligent sensing for food status monitoring applications in daily life, storage and supply chains.Entities:
Keywords: Wireless sensor; food spoilage; gas sensors; nanostrucutured polymer; polyaniline
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Year: 2018 PMID: 29947228 DOI: 10.1021/acs.nanolett.8b01825
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189