Surface modification of microfluidic devices

Authors

  • Panittamat Kumlangdudsana Graduate School of Nanoscience and Technology, Chulalongkorn University
  • Stephan T. Dubas Metallurgy and Material Science Research Institute, Chulalongkorn University
  • Luxsana Dubas Department of chemistry, Faculty of Science Chulalongkorn University

Abstract

Microfluidic is a multidisciplinary which encompasses the fields of physics, chemistry, nanotechnology, engineering, and biotechnology. It has been developed extensively for many applications such as handling biological entities such as DNA separation, immunoassay, cell sorting, biosensors, and enzymatic assays due to the potential offered by miniaturizing, high throughput of analysis, low cost of fabrication, multiplex functionality and portability. The surface modification of microfluidic devices has also been a major focus in research to help to enhance their efficiency. There is a variety of surface modification methods and in this paper we reviews and presents an overview of the surface modification techniques of microfluidic devices.

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References

Monaghan, Paul B., McCarney, McCarney, Karen M., McCarney, A., Littleford, Rachael E., Docherty, F., Smith, W. E., Graham, D. and Jonathan M. Cooper B. 2007. Anal. Chem. 79 : 2844-2849.

Frank, Y. H., Lin., Mahdi Sabri., Javad, Alirezaie, Dongqing, Li. and Sherman, P. M. 2005. Clin. Diagnos Lab. Imm. 12 : 418-425.

Baker, Dale R. 1995. Capillary Electrophoresis. New York : A Wiley-Interscience.

Bo-Lennart, Johansson Anders, Larsson, Anette Ocklind and Hrlund, A ke O 2002. J. Appl. Polym. Sci. 86 : 2618–2625.

Jikun, Liu Tao, Pan, Woolley, Adam T. and Lee, Milton L. 2004. Anal. Chem. 76 : 6948- 6955.

Berdichevsky, Yevgeny Khandurina, Julia, Guttman András., Loa, Y. H. 2004. Sens Actuators B. 97 : 402–408.

Steen, Michelle L., Hymasa, Lynley Havey, Elizabeth D., Capps, Nathan E., Castner, David G. and Fisher, Ellen R. 2001. Low temperature plasma treatment of asymmetric polysulfone membranes for permanent hydrophilic surface modification. J. Membr.Sci. 188(1) : 97–114.

Steen, Michelle L., Butoi, Carmen I. and Fisher, Ellen R. 2001. Langmuir. 17 : 8156-8166.

Steen, Michelle L. Jordan, Alistair C. and Fisher, Ellen R. 2002. Hydrophilic modification of polymeric membranes by low temperature H2O plasma treatment. J. Membr. Sci. 204(1-2) : 341–357.

Schroder, K., Meyer-Plath, A., Keller, D., Besch, W., Babucke, G. and Ohl, A. 2001. Contrib. Plasma Phys. 41 : 596-572.

Long, Thimothy M., Prakash, Shaury, Shannon, Mark, A. and Moore, Teffrey S. 2006. Langmuir. 22 : 4104-4109.

Liu, Jikun, Pan, Tao, Woolley, Adam T. and Lee, Milton L. 2004. Anal. Chem. 76 : 6948-6955.

Wu, Dapeng, Luo, Yong, Zhou, Xiaomian, Dai, Zhongpeng and Bingcheng, L. 2004. Electrophoresis. 26 : 211-218.

Belder, Detlev Ludwig, Ludwig, Martin. 2000. Electrophoresis. 24 : 3595–3606.

Barbier, Valessa, Tatoulian, Michae, Li, Hong, Arefi-Khonsari, Farzaneh, Ajdari, Armand and Tabeling, Patrick. 2006. Langmuir 22 : 5230-5232.

Hu, Shuwen, Ren, Xueqin, Bachman, Mark, Sims, Christopher E., Li, G. P. and Grafting, Nancy Allbritton. 2002. Anal. Chem. 74 : 4117-4123.

Hu, Shuwen, Ren, Xueqin, Bachman, Mark, Sims, Christopher E., Li,and, G. P., Allbritton, Nancy L. 2004. Anal. Chem. 76 :1865-1870.

Ebara, Mitsuhiro, Hoffman, John M., Stayton, Patrick S. and Hoffman, Allan S. 2007. Surface modification of microfluidic channels by UV-mediated graft polymerization of non-fouling and ‘smart’ polymers. Radiat. Phys. Chem. 76 : 1409–1413.

Zangmeister, Rebecca A. and Tarlov, Michael J. 2003. Langmuir. 19 : 6901-6904.

Mela, P., Onclin, S., Goedbloed, M. H., Levi, S., García-Parajó, M. F., van Hulst, N. F., Ravoo, B. J., Reinhoudt, D. N. and Monolayer, A. van den Berg. Lab. Chip. 5 : 163 – 170.

Hau,Winky L W., Trau, Deiter W., Nikolaus J. Sucher, Man Wong and Yitshak Zohar. 2003. J. Micromech. Microeng. 13 : 272- 278.

Dang, Fuquan, Kakehi, Kazuaki, Cheng, Jingjun, Tabata, Osamu, Kurokawa, Masaya, Nakajima, Kazuki, Ishikawa, Mitsuru and Baba, Yoshinobu. 2006. Anal. Chem. 78 : 1452-1458.

Kato, Masaru, Gyoten, Yukari, Sakai-Kato, Kumiko, Nakajima, Tohru and Toyooka, Toshimasa. Anal. Chem. 76 : 6792-6796.

Sibarani, James, Takai, Madoka, Ishihara, Kazuhiko. 2007. Surface modification on microfluidic devices with 2- methacryloyloxyethyl phosphorylcholine polymers for reducing unfavorable protein adsorption. Colloids Surf. B: Biointerfaces. 54(1) : 88–93.

Lahav, Michal, Narovlyansky, Max, Winkleman, Adam, Perez-Castillejos, Raquel, Weiss, Emily A. and Whitesides, George M. 2006. Adv. Mater. 18 : 3174–3178.

Xiao, Deqing, Le,Thai Van and Wirth, Mary J. 2004. Anal. Chem. 76 : 2055-2061. 27. Barker, Susan L. R., Ross, David, Tarlov, Michael J., Gaitan, Michael and Locascio, Laurie E. 2000. Anal. Chem. 72 : 5925- 5929.

Sui, Zhijie and Schlenoff , Joseph B. 2003. Langmuir. 19 : 7829-7831.

Liu, Yan, Fanguy, Joseph C., Bledsoe, Justin M. and Henry, Charles S. 2000. Anal. Chem. 72 : 5939-5944.

Barker, Susan L. R., Tarlov, Michael J., CanAvan, Heather. Hickman, James J. and Locascio, Laurie E. 2000. Anal. Chem. 72 : 4899-4903.

Makamba, Honest, Hsieh, Ya-Yu, Sung, WangChou and Chen, Shu-Hui. 2005. Anal. Chem. 77 : 3971-3978.

Liu, Yun, Lu, Haojie, Zhong, Wei, Song, Pengyu, Kong, Jilie, Yang, Pengyuan, Girault, Hubert H. and Liu, Baohong. 2006. Anal. Chem. 78 : 801-808.

Quinn, Anthony, Tjipto, Elvira, Yu, Aimin, Gengenbach, Thomas R. and Caruso, Frank. 2007. Langmuir 23 : 4944-4949.

Reyes, Darwin R., Perruccio, Elizabeth M., Becerra, S. Patricia, Locascio, Laurie E. and Gaitan, Michael. 2004. Langmuir. 20 : 8805-8811.

Safouane, M., Miller, R. and Mohwald H. 2005. Surface viscoelastic properties of floating polyelectrolyte multilayers films: A capillary wave study. J. Colloid Interface Sci. 292(1) : 86-92.

Kapnissi-Christodoulou, C.P., Lowry, M., Agbaria, R. A., Geng, L. and Warner, I. M. Electrophoresis. 26 : 783-789.

Kapnissi, C. P., Valle, B. C. And Warner, I. M. 2003. Anal. Chem. 75 : 6097-6104.

ธรรมนูญ หนูจักรม. 2550. คะพิลลารีอิเล็กโทรฟอริซิส. ภาควิชาเคมี คณะวิทยาศาสตร์ จุฬาลงกรณ์มหาวิทยาลัย.

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Published

2017-04-23

How to Cite

[1]
P. Kumlangdudsana, S. T. Dubas, and L. . Dubas, “Surface modification of microfluidic devices”, J Met Mater Miner, vol. 17, no. 2, Apr. 2017.

Issue

Vol. 17 No. 2 (2007)

Section

Original Research Articles

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