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Received July 22, 2020
Accepted September 21, 2020
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PDMS 블레이드 코팅법을 이용한 종이-기반 바이오센서칩 제작
Fabrication of Paper-based Biosensor Chip Using Polydimethylsiloxane Blade Coating Method
전남대학교 공학대학 화공생명공학과, 59626 전라남도 여수시 대학로 50
Department of Chemical and Biomolecular Engineering, Chonnam National University, 50 Daehak-ro, Yeosu-si, Jeollanam-do 59626, Korea
jeonghh29@jnu.ac.kr
Korean Chemical Engineering Research, February 2021, 59(1), 100-105(6), 10.9713/kcer.2021.59.1.100 Epub 15 January 2021
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Abstract
본 연구는 적은 비용으로 분석 장치 없이 질병 진단 및 경과를 모니터링할 수 있는 종이-기반 분석 장치(paper-based analytical device, PAD)를 제작하기 위해 polydimethylsiloxane (PDMS) 블레이드 코팅 방법을 제안하였다. PAD 디자인은 레이저 커팅 기술로 쉽게 몰드에 적용할 수 있으며, 제작된 몰드로 블레이드 코팅을 수행하여 완전한 소수성 장벽 형성에 필요한 조건을 확립하였다. 코팅 조건인 잉크의 두께와 종이와의 접촉시간에 따라 PDMS 소수성 장벽의 구조와 친수성 채널의 크기 변화를 분석하여 안정적으로 소수성 장벽을 형성할 수 있는 조건을 최적화하였다. 최적화된 방법을 바탕으로 PAD를 제작하여 특별한 분석기기 없이 단백질, 당, 메탈이온을 검출하여 바이오센서에 응용가능함을 증명하였다.
This paper proposes the polydimethylsiloxane (PDMS) blade coating method for fabrication of paperbased analytical device (PAD) that is able to monitor the disease diagnosis and progress without special analytical equipment. The mold that has PAD design is easily modified by using laser cutting technique. And the fabricated mold is used for hydrophobic barrier formation by blade coating. We have optimized the stable formation of PDMS hydrophobic barrier as blade coating condition, which is established by analyzing the structure of the PDMS hydrophobic barrier and change of hydrophilic channel size as thickness of the ink and contact time with the chromatography paper. Based on optimal condition, we demonstrate that PAD as biosensor can apply to detect protein, glucose, and metal ion without special analysis equipment.
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Bruzewicz DA, Reches M, Whitesides GM, Anal Chem, 80(9), 3387 (2008)
Yamada K, Henares TG, Suzuki K, Citterio D, Angew. Chem.-Int. Edit., 54(18), 5294 (2015)
Yamada K, Shibata H, Suzuki K, Citterio D, Lab Chip, 17(7), 1206 (2017)
Li F, Hu YT, Li ZM, Liu JC, Guo L, He JB, Anal Bioanal Chem., 411(24), 6497 (2019)
Martinez AW, Phillips ST, Butte MJ, Whitesides GM, Angew. Chem.-Int. Edit., 46(8), 1318 (2007)
Abe K, Suzuki K, Citterio D, Anal Chem., 80(18), 6928 (2008)
Fenton EM, Mascarenas MR, Lopez GP, Sibbett SS, Acs Appl Mater Inter, 1(1), 124 (2009)
Nie JF, Liang YZ, Zhang Y, Le SW, Li DN, Zhang SB, Analyst, 138(2), 671 (2013)
Evans E, Gabriel EFM, Coltro WKT, Garcia CD, Analyst, 139(9), 2127 (2014)
Lu Y, Shi WW, Jiang L, Qin JH, Lin BC, Electrophoresis, 30(9), 1497 (2009)
Carrilho E, Martinez AW, Whitesides GM, Anal Chem, 81(16), 7091 (2009)
Olkkonen J, Lehtinen K, Erho T, Anal Chem, 82(24), 10246 (2010)
Dungchai W, Chailapakul O, Henry CS, Analyst, 136(1), 77 (2011)
Kim DH, Jeong SG, Lee CS, Korean Chem Eng Res, 58(2), 286 (2020)
Chen B, Kwong P, Gupta M, Acs Appl Mater Inter, 5(23), 12701 (2013)
Dornelas KL, Dossi N, Piccin E, Anal Chim Acta, 858, 82 (2015)
Wang JY, Monton MRN, Zhang X, Filipe CDM, Pelton R, Brennan JD, Lab Chip, 14(4), 691 (2014)
McDonald JC, Whitesides GM, Accounts Chem. Res., 35(7), 491 (2002)
Tanaka H, Yamamoto S, Nakamura A, Nakashoji Y, Okura N, Nakamoto N, Tsukagoshi K, Hashimoto M, Anal Chem, 87(8), 4134 (2015)
Baipaywad P, KiM YK, Wi JS, Paik TJ, Park HS, J. Ind. Eng. Chem., 53, 177 (2017)
Jeong HH, Clean Technol., 25(4), 283 (2019)
Shim G, Jeong SG, Hong W, Kang KK, Lee CS, Korean Chem Eng Res, 56(6), 826 (2018)
Lee JN, Park C, Whitesides GM, Anal Chem,, 75(23), 6544 (2003)
Lee J, Kim MJ, Lee HH, Langmuir, 22(5), 2090 (2006)
Riekkola ML, Electrophoresis, 23(22-23), 3865 (2002)
Bao DD, Millare B, Xia W, Steyer BG, Gerasimenko AA, Ferreira A, Contreras A, Vullev VI, J. Phys. Chem. A, 113(7), 1259 (2009)
Bruzewicz DA, Reches M, Whitesides GM, Anal Chem, 80(9), 3387 (2008)
