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Microfluidic devices for diagnostic applications
Expert Review of Molecular Diagnostics, 2011Microfluidic systems have become an attractive platform for diagnostic applications. The technology not only allows drastically decreased assay volumes (down to picoliters), but also accelerates sample processing and readout. In this article we give an overview of the different kinds of systems, ranging from non- or minimally instrumented point-of-care
Dominic, Eicher, Christoph A, Merten
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Step-emulsification in a microfluidic device
Lab on a Chip, 2015We present a comprehensive theoretical and experimental study of the microfluidic step-emulsification process for high-throughput production of monodisperse droplets.
Z, Li +4 more
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Microfluidic devices for the analysis of apoptosis
ELECTROPHORESIS, 2005AbstractApoptosis is the outcome of a metabolic cascade that results in cell death in a controlled manner. Due to its important role in maintaining balance in organisms, in mechanisms of diseases, and tissue homeostasis, apoptosis is of great interest in the emerging fields of systems biology.
Jianhua, Qin +3 more
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Microfluidic Device for Localized Electroporation
2019Electroporation is a common method of transfection due to its relatively low risk and high transfection efficiency. The most common method of electroporation is bulk electroporation which is easily performed on large quantities of cells yet results in variable levels of viability and transfection efficiency across the population.
Brooks, Justin +2 more
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Polyimide-based microfluidic devices
Lab on a Chip, 2001This paper describes the development of polyimide-based microfluidic devices. A layer transfer and lamination technique is used to fabricate flexible microfluidic channels in various shapes and with a wide range of dimensions. High bond strengths can be achieved by cure cycle adaptation and surface treatment of the polyimide layers prior to bonding ...
Metz S, Holzer R, Renaud P
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Sample purification on a microfluidic device
ELECTROPHORESIS, 2001Sample preparation has long been recognized as a significant barrier to the implementation of macroscopic protocols on microfabricated devices. Macroscopically, such tasks as removing salts, primers and other contaminants are performed by methods involving precipitation, specialized membranes and centrifuges, none of which are readily performed in ...
T, Footz +5 more
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Automatic Design of Microfluidic Devices
2018 Forum on Specification & Design Languages (FDL), 2018This overview paper summarizes the content of a tutorial given at the 2018 edition of the Forum on specification & Design Languages. The aim of the tutorial was to introduce the technology of microfluidic devices, which gained significant interest in the recent past, as well as corresponding design challenges to a community focused on design automation
Robert Wille +3 more
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Monoliths for microfluidic devices in proteomics
Journal of Chromatography B, 2004We report here on the preparation of monolithic capillary columns in view to their integration in a microsystem for on-chip sample preparation before their on-line analysis by electrospray and mass spectrometry (ESI-MS). These monolithic columns are based on polymer materials and consist of reverse phases for peptide separation and/or desalting.
Le Gac, S. +4 more
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Emerging paper microfluidic devices
The Analyst, 2019Paper has unique advantages over other materials, including low cost, flexibility, porosity, and self-driven liquid pumping, thus making it widely used in various fields in biology, chemistry, physics and materials science.
Bingbing Gao +4 more
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Functionalized Vesicles by Microfluidic Device
2017In recent years, lipid vesicles have become popular vehicles for the creation of biosensors. Vesicles can hold reaction components within a selective permeable membrane that provides an ideal environment for membrane protein biosensing elements. The lipid bilayer allows a protein to retain its native structure and function, and the membrane fluidity ...
Derek, Vallejo +2 more
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