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David S. Reichmuth
Researcher at Sandia National Laboratories
Publications - 21
Citations - 613
David S. Reichmuth is an academic researcher from Sandia National Laboratories. The author has contributed to research in topics: Green vehicle & Miles per gallon gasoline equivalent. The author has an hindex of 13, co-authored 19 publications receiving 590 citations. Previous affiliations of David S. Reichmuth include University of California, Berkeley.
Papers
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Journal ArticleDOI
Microchip HPLC of peptides and proteins.
TL;DR: The current prototype HPLC system shows the potential for rapid and autonomous HPLC separations with varying modalities and the Potential for direct connection to mass spectrometers at nanospray flow rates.
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Rapid microchip-based electrophoretic immunoassays for the detection of swine influenza virus
David S. Reichmuth,Serena K. Wang,Louise M. Barrett,Daniel J. Throckmorton,Wayne Einfeld,Anup K. Singh +5 more
TL;DR: A novel assay was developed that allows simultaneous concentration and detection of viruses using a microfluidic chip with an integrated nanoporous membrane and is intended to form the core of a portable device for the diagnosis of high-consequence animal pathogens such as foot-and-mouth disease.
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Analysis of metabolic pathways and fluxes in a newly discovered thermophilic and ethanol-tolerant Geobacillus strain
Yinjie J. Tang,Rajat Sapra,Rajat Sapra,Dominique C. Joyner,Terry C. Hazen,Samuel A. Myers,David S. Reichmuth,Harvey W. Blanch,Harvey W. Blanch,Harvey W. Blanch,Jay D. Keasling +10 more
TL;DR: Investigating the central metabolism of this bacterium using both in vitro enzyme assays and 13C‐based flux analysis to provide insights into the physiological properties of this extremophile and explore its metabolism for bio‐ethanol or other bioprocess applications shows that both pathways should be modified to maximize ethanol production.
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Increasing the performance of high-pressure, high-efficiency electrokinetic micropumps using zwitterionic solute additives
TL;DR: In this paper, a zwitterionic additive is used to improve the performance of electrokinetic micropumps (EK pumps), which use voltage applied across a porous matrix to generate electroosmotic pressure and flow in microfluidic systems.
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On-chip high-pressure picoliter injector for pressure-driven flow through porous media.
TL;DR: A high-pressure (> 3 MPa) on-chip injector has been developed for microchip applications including HPLC and is unique among polymer-based valves as it functions in aqueous, acetonitrile, and mixed buffers at high pressures without detectable leakage.