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NanoMixer™ • Superior mixing, low turbulence • Flow rates from submicroliter up to 500µL/min The Upchurch Scientific® NanoMixer uses hyperdiffusion between flow laminae for superior mixing with reduced turbulence. Independent tests show the NanoMixer offers improved peak shapes, more distinct gradient profiles, and it contributes less to detector noise than other available mixers. The NanoMixer is ideal for high pressure gradient systems or post-column derivatization such as applications where two streams must be combined into one. It is well suited for submicroliter flow rates, yet it has been tested up to 500µL/min. Using Upchurch Scientific technology (click here for a list of research papers concerning NanoMixer technology), the silicon chip-based NanoMixer allows direct connection of 360µm OD fused silica, PEEK™, or PFA capillary tubing using our NanoFerrules™ — without tubing sleeves. The flow path consists of silicon and glass surfaces. NOTE: The NanoMixer offers two flow-path options, selected by simply changing the orientation of the enclosed silicon chip. Configuration one mixes with relatively low backpressure and a flow-path volume of 30nL (part # N-200). Option two offers more efficient mixing with higher backpressure and a flow-path volume of 60nL (part # N-200-60). Both configurations are pressure rated at 4,000 psi (276bar). Research papers referencing NanoMixer technology: Time-resolved Fourier Transform Infrared Spectrometry Using a Microfabricated Continuous Flow Mixer; Application to Protein Conformation Study on the Example of Ubiquitin M. Kakuta, P. Hinsmann, A. Manz, B. Lendl Lab Chip 3, 82-85 (2003) Micromixer-Based Time-Resolved NMR: Applications to Ubiquitin Protein Conformation M. Kakuta, D.A. Jayawickrama, A.M. Wolters, A. Manz, J.V. Sweedler Anal. Chem. 75, 956-960 (2003) On-Line On-Chip Post Column Derivatisation Reactions for Pre-ionistation of Analytes and Cluster Analysis in Gradient Micro Liquid Chromatography Electrospray Mass Spectrometry V. Spikmans, S.J. Lane, B.Leavens, A. Manz, N.W. Smith Rapid Commun. Mass Spectrom. 16, 1377-1388 (2002) Microfluidic Routes to the Controlled Production of Nanoparicles Edel JB, Fortt R, deMello JC, deMello AJ Chem. Comm. 10, 1136-1137 (2002) Microchip-Based Synthesis and Total Analysis Systems (µSYNTAS) M.C. Mitchell, V. Spikmans, A. Manz, A.J. de Mello J. Chem. Soc. Perkin Trans.1, 2001, 514-518 (2001) On-line Monitoring of Chromium(III) using a Fast Micromachined Mixer/Reactor and Chemiluminescence Detection Y. Xu, F.G. Bessoth, J.C.T. Eijkel, A. Manz Analyst 125, 677-683 (2000) Microstructure for Efficient Continuous Flow Mixing F.G. Bessoth, A.J. de Mello, A. Manz Anal. Comm. 36, 213-215 (1999) Copyright © IDEX Corporation 2010. IDEX Health & Science is a Unit of IDEX® Corporation. | Privacy Policy |