Title :
Microfluidic Smectite-Polymer Nanocomposite Strip Sensor for Aflatoxin Detection
Author :
He Hu ; Youjun Deng ; Jun Zou
Author_Institution :
Dept. of Electr. & Comput. Eng., Texas A&M Univ., College Station, TX, USA
Abstract :
Aflatoxins can cause seriously toxic and carcinogenic effects on human health. Current detection methods include immunoaffinity-based assays and high performance liquid chromatography. In this paper, we report a novel aflatoxin detection array based on smectite-polyacrylamide nanocomposite and a new fluorometeric quantification method. Two concentration levels (20-80 ppb/5-15 ppb) of aflatoxin B1-spiked corn extraction solutions are tested. Microfluidic channels are used to reduce the diffusion length and time of aflatoxin adsorption. By using incident intensity modulation, a simpler fluorometric quantification of aflatoxin concentration on sub-100 ppb levels is achieved with a hand-held 365-nm ultraviolet lamp.
Keywords :
chemical sensors; chromatography; intensity modulation; microfluidics; microsensors; nanocomposites; nanosensors; polymers; sensor arrays; aflatoxin B1-spiked corn extraction; aflatoxin detection array; carcinogenic effect; fluorometeric quantification method; high-performance liquid chromatography; human health; immunoaffinity-based assay; incident intensity modulation; microfluidic channel; microfluidic smectite polymer nanocomposite strip sensor; toxic effect; ultraviolet lamp; wavelength 365 nm; Adsorption; Fluorescence; Glass; Lighting; Microfluidics; Strips; Aflatoxin detection; microfluidics; smectite;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2013.2242057
