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Anal Chim Acta


Title:Optical nose based on porous silicon photonic crystal infiltrated with ionic liquids
Author(s):Zhang H; Lin L; Liu D; Chen Q; Wu J;
Address:"Institute of Microanalytical System, Department of Chemistry, Zhejiang University, Hangzhou, 3100058, China; Zhejiang Academy of Medical Sciences, Hangzhou, 310013, China. Institute of Microanalytical System, Department of Chemistry, Zhejiang University, Hangzhou, 3100058, China. Institute of Microanalytical System, Department of Chemistry, Zhejiang University, Hangzhou, 3100058, China. Electronic address: wjm-st1@zju.edu.cn"
Journal Title:Anal Chim Acta
Year:2017
Volume:20161203
Issue:
Page Number:71 - 78
DOI: 10.1016/j.aca.2016.11.053
ISSN/ISBN:1873-4324 (Electronic) 0003-2670 (Linking)
Abstract:"A photonic-nose for the detection and discrimination of volatile organic compounds (VOCs) was constructed. Each sensing element on the photonic sensor array was formed by infiltrating a specific type of ionic liquid (IL) into the pore channel of a patterned porous silicon (PSi) chip. Upon exposure to VOC, the density of IL dramatically decreased due to the nano-confinement effect. As a result, the IL located in pore channel expanded its volume and protrude out of the pore channel, leading to the formation of microdroplets on the PSi surface. These VOC-stimulated microdroplets could scatter the light reflected from the PSi rugate filter, thereby producing an optical response to VOC. The intensity of the optical response produced by IL/PSi sensor mainly depends on the size and shape of microdroplets, which is related to the concentration of VOC and the physi-chemical propertied of ILs. For ethanol vapor, the optical response has linear relationship with its relative vapor pressure within 0-60%. The LOD of the IL/PSi sensor for ethanol detection is calculated to be 1.3 ppm. It takes around 30 s to reach a full optical response, while the time for recovery is less than 1 min. In addition, the sensor displayed good stability and reproducibility. Owing to the different molecular interaction between IL and VOC, the ILs/PSi sensor array can generate a unique cross-reactive 'fingerprint' in response to a specific type of VOC analyte. With the assistance of image technologies and principle components analysis (PCA), rapid discrimination of VOC analyte could be achieved based on the pattern recognition of photonic sensor array. The technology established in this work allows monitoring in-door air pollution in a visualized way"
Keywords:Ionic liquids Light scattering Micro-droplets Photonic crystal Porous silicon Volatile organic vapor;
Notes:"PubMed-not-MEDLINEZhang, Haijuan Lin, Leimiao Liu, Dong Chen, Qiaofen Wu, Jianmin eng Netherlands 2016/12/25 Anal Chim Acta. 2017 Feb 8; 953:71-78. doi: 10.1016/j.aca.2016.11.053. Epub 2016 Dec 3"

 
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