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https://doi.org/10.15255/CABEQ.2014.1937

Characterisation of an Adhesive-free Packaging System for Polymeric Microfluidic Biochemical Devices and Reactors

M. Reichen ; Department of Biochemical Engineering, University College London, Torrington Place, London, WC1E 7JE, UK
A. Super ; Department of Biochemical Engineering, University College London, Torrington Place, London, WC1E 7JE, UK
M. J. Davies ; Department of Biochemical Engineering, University College London, Torrington Place, London, WC1E 7JE, UK
R. J. Macown ; Department of Biochemical Engineering, University College London, Torrington Place, London, WC1E 7JE, UK
B. O’Sullivan ; Department of Biochemical Engineering, University College London, Torrington Place, London, WC1E 7JE, UK
T. V. Kirk ; Department of Biochemical Engineering, University College London, Torrington Place, London, WC1E 7JE, UK
M. P. C. Marques ; Department of Biochemical Engineering, University College London, Torrington Place, London, WC1E 7JE, UK
N. Dimov ; Department of Biochemical Engineering, University College London, Torrington Place, London, WC1E 7JE, UK
N. Szita   ORCID icon orcid.org/0000-0002-6204-5074 ; Department of Biochemical Engineering, University College London, Torrington Place, London, WC1E 7JE, UK

Puni tekst: engleski, pdf (3 MB) str. 189-202 preuzimanja: 417* citiraj
APA 6th Edition
Reichen, M., Super, A., Davies, M.J., Macown, R.J., O’Sullivan, B., Kirk, T.V., ... Szita, N. (2014). Characterisation of an Adhesive-free Packaging System for Polymeric Microfluidic Biochemical Devices and Reactors. Chemical and Biochemical Engineering Quarterly, 28 (2), 189-202. https://doi.org/10.15255/CABEQ.2014.1937
MLA 8th Edition
Reichen, M., et al. "Characterisation of an Adhesive-free Packaging System for Polymeric Microfluidic Biochemical Devices and Reactors." Chemical and Biochemical Engineering Quarterly, vol. 28, br. 2, 2014, str. 189-202. https://doi.org/10.15255/CABEQ.2014.1937. Citirano 24.10.2019.
Chicago 17th Edition
Reichen, M., A. Super, M. J. Davies, R. J. Macown, B. O’Sullivan, T. V. Kirk, M. P. C. Marques, N. Dimov i N. Szita. "Characterisation of an Adhesive-free Packaging System for Polymeric Microfluidic Biochemical Devices and Reactors." Chemical and Biochemical Engineering Quarterly 28, br. 2 (2014): 189-202. https://doi.org/10.15255/CABEQ.2014.1937
Harvard
Reichen, M., et al. (2014). 'Characterisation of an Adhesive-free Packaging System for Polymeric Microfluidic Biochemical Devices and Reactors', Chemical and Biochemical Engineering Quarterly, 28(2), str. 189-202. https://doi.org/10.15255/CABEQ.2014.1937
Vancouver
Reichen M, Super A, Davies MJ, Macown RJ, O’Sullivan B, Kirk TV i sur. Characterisation of an Adhesive-free Packaging System for Polymeric Microfluidic Biochemical Devices and Reactors. Chemical and Biochemical Engineering Quarterly [Internet]. 2014 [pristupljeno 24.10.2019.];28(2):189-202. https://doi.org/10.15255/CABEQ.2014.1937
IEEE
M. Reichen, et al., "Characterisation of an Adhesive-free Packaging System for Polymeric Microfluidic Biochemical Devices and Reactors", Chemical and Biochemical Engineering Quarterly, vol.28, br. 2, str. 189-202, 2014. [Online]. https://doi.org/10.15255/CABEQ.2014.1937

Sažetak
The development of microfluidic devices is an iterative process that involves series of improvements, which can be costly and time consuming. We present a packaging system which makes use of an accessible rapid prototyping method, and facilitates the rapid and reliable implementation of polymeric microfluidic device designs. The packaging system uses a modular design and is based on an adhesive-free connection of a reusable and stiff polymeric interface plate with a disposable, soft microfluidic chip under compression. We characterised the system by numerically and experimentally studying the effect of compression and key dimensions on burst pressure and flow rate. All parts are fabricated with readily available low-cost materials and micro-milling technology. The presented approach is both facilitating and systematising the fabrication of devices with
different degrees of complexity; keeping assembly and interconnection simple and straightforward. Furthermore, minimising the time between a design and a finished working prototype yields rapid verification of microfluidic design concepts and testing of
assays. Several chip designs were fabricated, then growth of stem cells and hydrodynamic vertical flow focusing in a microfluidic device were realised using our approach. Our approach minimises the need for re-development and re-testing of interface components; reducing cost and time requirements.

Ključne riječi
packaging; rapid prototyping; micro milling; micro reactors; stem cell culture; hydrodynamic vertical flow focussing

Hrčak ID: 120550

URI
https://hrcak.srce.hr/120550

Posjeta: 777 *