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Microfabrication technologies for plastic microfluidics

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Microfabrication technologies for plastic microfluidics

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    26. 26 Polymer-to-polymer bonding methods include: adhesives solvent-assisted glueing thermal bonding (near or above Tg) ultrasonic/microwave bonding (small area, 1x1 cm) (disadvantage: possible deformation of substrates and microchannel patterns) 5. laser welding 6. lamination (with foils)

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    34. 34 G. Whitesides and A.D. Stroock, “Flexible methods for Microfluidics”, Physics Today (www.physicstoday.org/pt/vol-54/iss-6) Yole Développment Report: “Emerging Markets for Microfluidics Applications”, (Oct./Nov. 2004, May 2007) J.C. McDonalds, et. al. “Fabrication of microfluidic systems in PDMS”, Electrophoresis (2000), 21 27-40 E. Verpoorte and N. de Rooij, “Microfluidics meets MEMS”, Review Proc. IEEE (2003) 91 930-957 P. Grodzinski et. al. “Development of plastic microfluidic devices for sample preparation”, Biomedical Microdevices (2001), 3:4 275-83 H. Becker and L. Locascio, “Polymer microfluidic devices” Review Talanta (2002) 56 267-87 Y. Xia and G. Whitesides “Soft Lithography” Annu. Rev. Mater. Sci. (1998) 28 153-184 A. Gerlach, et. al. “Microfabrication of single-use plastic microfluidic devices for high-throughput screening and DNA analysis” Microsystem Technologies (2002) 7 265-68 R. Linhardt and T. Toida “Ultra-high resolution separation comes of age” Science 298 1441-42 M.U. Kopp et. al. “Chemical amplification: Continuous-flow PCR on a chip” Science (1998) 280 1046-48 CG Koh et. al. “Integrating polymerase chain reaction, valving, and electrophoresis in a plastic device for bacterial detection” Anal. Chem. (2003) 75 4591-98 O. Geschke, H. Klank, P. Telleman, “Microsystem Engineering of Lab-on-a-chip Devices” (2004) Wiley-VCH Verlag H. Becker, C. Gartner, “Polymer microfabrication methods for microfluidic analytical applications” Electrophoresis (2000) 21, 12-26 O. Geschke, H. Klank, P. Telleman, “Microsystem Engineering of Lab-on-a-chip Devices” (2004) Wiley-VCH Verlag

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