Use of photopatterned porous polymer monoliths as passive micromixers to enhance mixing efficiency for on-chip labeling reactions.
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Frantisek Svec | F. Švec | J. Fréchet | D. Mair | Jean M J Fréchet | Dieudonne A Mair | Thomas R Schwei | Theresa S Dinio | T. Schwei | T. Dinio
[1] Frantisek Svec,et al. Flow control valves for analytical microfluidic chips without mechanical parts based on thermally responsive monolithic polymers. , 2003, Analytical chemistry.
[2] R. Oleschuk,et al. Fabrication of porous polymer monoliths in polymeric microfluidic chips as an electrospray emitter for direct coupling to mass spectrometry. , 2006, Analytical chemistry.
[3] Frantisek Svec,et al. Injection molded microfluidic chips featuring integrated interconnects. , 2006, Lab on a chip.
[4] Adam T Woolley,et al. Affinity monolith-integrated poly(methyl methacrylate) microchips for on-line protein extraction and capillary electrophoresis. , 2008, Analytical chemistry.
[5] Frantisek Svec,et al. Room-temperature bonding for plastic high-pressure microfluidic chips. , 2007, Analytical chemistry.
[6] Jin Ho Kim,et al. Surface modification of poly(dimethylsiloxane) microchannels , 2003, Electrophoresis.
[7] Jun Kameoka,et al. A polymeric microchip with integrated tips and in situ polymerized monolith for electrospray mass spectrometry. , 2005, Lab on a chip.
[8] Frantisek Svec,et al. Monolithic valves for microfluidic chips based on thermoresponsive polymer gels , 2003, Electrophoresis.
[9] R. Oleschuk,et al. Trapping of bead-based reagents within microfluidic systems: on-chip solid-phase extraction and electrochromatography , 2000, Analytical chemistry.
[10] P. Tabeling,et al. PDMS-based microfluidics for proteomic analysis. , 2006, The Analyst.
[11] Sebastiaan Eeltink,et al. Monolithic porous polymer stationary phases in polyimide chips for the fast high-performance liquid chromatography separation of proteins and peptides. , 2008, Journal of chromatography. A.
[12] R. Oleschuk,et al. Lectin affinity chromatography using porous polymer monolith assisted nanoelectrospray MS/MS. , 2006, The Analyst.
[13] Jean M. J. Fréchet,et al. New Designs of Macroporous Polymers and Supports: From Separation to Biocatalysis , 1996, Science.
[14] Nam-Trung Nguyen,et al. Micromixers?a review , 2005 .
[15] Kelvin H. Lee,et al. Affinity depletion of albumin from human cerebrospinal fluid using Cibacron-blue-3G-A-derivatized photopatterned copolymer in a microfluidic device. , 2004, Analytical biochemistry.
[16] Frantisek Svec,et al. Light-actuated high pressure-resisting microvalve for on-chip flow control based on thermo-responsive nanostructured polymer. , 2008, Lab on a chip.
[17] Kyle W. Hukari,et al. Microfluidic purification and preconcentration of mRNA by flow-through polymeric monolith. , 2007, Analytical chemistry.
[18] F. Švec,et al. Monolithic porous polymer for on-chip solid-phase extraction and preconcentration prepared by photoinitiated in situ polymerization within a microfluidic device. , 2001, Analytical chemistry.
[19] E. Hilder,et al. Photografting and the Control of Surface Chemistry in Three-Dimensional Porous Polymer Monoliths , 2003 .
[20] Mehmet Toner,et al. Single-cell chemical lysis in picoliter-scale closed volumes using a microfabricated device. , 2004, Analytical chemistry.
[21] X. Yang,et al. Preparation of the Capillary-based Microchips for Solid Phase Extraction by Using the Monolithic Frits Prepared by UV-initiated Polymerization , 2006, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry.
[22] C. Cren-olivé,et al. Monoliths for microfluidic devices in proteomics. , 2004, Journal of chromatography. B, Analytical technologies in the biomedical and life sciences.
[23] D. Knapp,et al. Monolithic media in microfluidic devices for proteomics , 2006, Electrophoresis.
[24] Kelvin H. Lee,et al. Coupling on‐chip solid‐phase extraction to electrospray mass spectrometry through an integrated electrospray tip , 2005, Electrophoresis.
[25] H. Girault,et al. Electrospray micromixer chip for on-line derivatization and kinetic studies. , 2008, Analytical chemistry.
[26] Porous polymer monolith assisted electrospray from a glass microdevice. , 2005, Rapid communications in mass spectrometry : RCM.
[27] Jean M. J. Fréchet,et al. Surface Functionalization of Thermoplastic Polymers for the Fabrication of Microfluidic Devices by Photoinitiated Grafting , 2003 .
[28] S. Hjertén,et al. Electroosmosis- and pressure-driven chromatography in chips using continuous beds. , 2000, Analytical chemistry.
[29] A. Svatoš,et al. Chemical modification of polymeric microchip devices. , 2007, Talanta.
[30] A. Singh,et al. Integrated preconcentration SDS-PAGE of proteins in microchips using photopatterned cross-linked polyacrylamide gels. , 2006, Analytical chemistry.
[31] Detlev Belder,et al. Surface modification in microchip electrophoresis , 2003, Electrophoresis.
[32] M Petro,et al. Molded rigid polymer monoliths as separation media for capillary electrochromatography. 1. Fine control of porous properties and surface chemistry. , 1998, Analytical chemistry.
[33] Gwo-Bin Lee,et al. Integrated microfluidic systems for cell lysis, mixing/pumping and DNA amplification , 2005 .
[34] M. Kassai,et al. A comparison of fluorescamine and naphthalene-2,3-dicarboxaldehyde fluorogenic reagents for microplate-based detection of amino acids. , 2001, Analytical biochemistry.
[35] Jerome P Ferrance,et al. Microfluidic-based DNA purification in a two-stage, dual-phase microchip containing a reversed-phase and a photopolymerized monolith. , 2007, Analytical chemistry.
[36] C. G. Willson,et al. Introduction to microlithography , 1994 .
[37] J. Fréchet,et al. Monolithic, “Molded”, Porous Materials with High Flow Characteristics for Separations, Catalysis, or Solid-Phase Chemistry: Control of Porous Properties during Polymerization , 1996 .
[38] Fahima Ouchen,et al. An integrated solid‐phase extraction system for sub‐picomolar detection , 2002, Electrophoresis.
[39] Frantisek Svec,et al. Enzymatic microreactor-on-a-chip: protein mapping using trypsin immobilized on porous polymer monoliths molded in channels of microfluidic devices. , 2002, Analytical chemistry.
[40] Howard A. Stone,et al. ENGINEERING FLOWS IN SMALL DEVICES , 2004 .
[41] T. Shepodd,et al. Reversed-phase electrochromatography of amino acids and peptides using porous polymer monoliths. , 2001, Journal of chromatography. A.
[42] Sidney Udenfriend,et al. Fluorescamine: A Reagent for Assay of Amino Acids, Peptides, Proteins, and Primary Amines in the Picomole Range , 1972, Science.
[43] T. Rohr,et al. Porous polymer monoliths: Simple and efficient mixers prepared by direct polymerization in the channels of microfluidic chips , 2001, Electrophoresis.
[44] D. Peterson,et al. Solid supports for micro analytical systems. , 2005, Lab on a chip.