Folding-paper-based preconcentrator for low dispersion of preconcentration plug

Ion concentration polarization (ICP) has been widely studied for collecting target analytes as it is a powerful preconcentrator method employed for charged molecules. Although the method is quite robust, simple, cheap, and yields a high preconcentration factor, a major hurdle to be addressed is extr...

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Bibliographic Details
Published in:Micro and nano systems letters 2017-02, Vol.5 (1), p.1, Article 11
Main Authors: Lee, Kyungjae, Yoo, Yong Kyoung, Han, Sung Il, Lee, Junwoo, Lee, Dohwan, Kim, Cheonjung, Lee, Jeong Hoon
Format: Article
Language:English
Subjects:
Applied and Technical Physics
Circuits and Systems
Electrical Engineering
Engineering
Letter
Mechanical Engineering
Nanotechnology
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Summary:Ion concentration polarization (ICP) has been widely studied for collecting target analytes as it is a powerful preconcentrator method employed for charged molecules. Although the method is quite robust, simple, cheap, and yields a high preconcentration factor, a major hurdle to be addressed is extracting the preconcentrated samples without dispersing the plug. This study investigates a 3D folding-paper-based ICP preconcentrator for preconcentrated plug extraction without the dispersion effect. The ICP preconcentrator is printed on a cellulose paper with pre-patterned hydrophobic wax. To extract and isolate the preconcentration plug with minimal dispersion, a 3D pop-up structure is fabricated via water drain, and a preconcentration factor of 300-fold for 10 min is achieved. By optimizing factors such as the electric field, water drain, and sample volume, the technique was enhanced by facilitating sample preconcentration and isolation, thereby providing the possibility for extensive applications in analytical devices such as lateral flow assays and FTA R cards.
ISSN:2213-9621
2213-9621
DOI:10.1186/s40486-017-0045-y