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David J Beebe

Showing results (31-40 of 284) with videos related to

Pageof 29
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Lab on a Chip|April 22, 2004
Ultra rapid prototyping of microfluidic systems using liquid phase photopolymerizationChristopher Khoury, Glennys A Mensing, David J Beebe
JALA (Charlottesville, Va.)|March 9, 2010
Automated high-throughput microchannel assays for cell biology: Operational optimization and characterizationJohn P Puccinelli, Xiaojing Su, David J Beebe
Journal of Laboratory Automation|November 27, 2014
High-density self-contained microfluidic KOALA kits for use by everyoneDavid J Guckenberger, Erwin Berthier, David J Beebe
Lab on a Chip|February 12, 2009
Cell-free protein expression in a microchannel array with passive pumpingRuba Khnouf, David J Beebe, Z Hugh Fan
Lab on a Chip|March 3, 2007
A plate reader-compatible microchannel array for cell biology assaysHongmei Yu, Caroline M Alexander, David J Beebe
Electrophoresis|September 9, 2006
Do-it-yourself microelectrophoresis chips with integrated sample recoverySwomitra K Mohanty, Dongshin Kim, David J Beebe
Lab on a Chip|June 1, 2007
Understanding microchannel culture: parameters involved in soluble factor signalingHongmei Yu, Caroline M Alexander, David J Beebe
Lab on a Chip|May 3, 2006
A method for dynamic system characterization using hydraulic series resistanceDongshin Kim, Naomi C Chesler, David J Beebe
SLAS Technology|June 20, 2020
Induced Pluripotent Stem Cells on a Chip: A Self-Contained, Accessible, Pipette-less iPSC Culturing and Differentiation KitPatrick McMinn, David J Guckenberger, David J Beebe
Analytical Chemistry|August 30, 2002
Principles of surface-directed liquid flow in microfluidic channelsBin Zhao, Jeffrey S Moore, David J Beebe
Pageof 29

Showing results (31-40 of 284) with videos related to

Sort By:
Pageof 29
Lab on a Chip|April 22, 2004
Ultra rapid prototyping of microfluidic systems using liquid phase photopolymerizationChristopher Khoury, Glennys A Mensing, David J Beebe
JALA (Charlottesville, Va.)|March 9, 2010
Automated high-throughput microchannel assays for cell biology: Operational optimization and characterizationJohn P Puccinelli, Xiaojing Su, David J Beebe
Journal of Laboratory Automation|November 27, 2014
High-density self-contained microfluidic KOALA kits for use by everyoneDavid J Guckenberger, Erwin Berthier, David J Beebe
Lab on a Chip|February 12, 2009
Cell-free protein expression in a microchannel array with passive pumpingRuba Khnouf, David J Beebe, Z Hugh Fan
Lab on a Chip|March 3, 2007
A plate reader-compatible microchannel array for cell biology assaysHongmei Yu, Caroline M Alexander, David J Beebe
Electrophoresis|September 9, 2006
Do-it-yourself microelectrophoresis chips with integrated sample recoverySwomitra K Mohanty, Dongshin Kim, David J Beebe
Lab on a Chip|June 1, 2007
Understanding microchannel culture: parameters involved in soluble factor signalingHongmei Yu, Caroline M Alexander, David J Beebe
Lab on a Chip|May 3, 2006
A method for dynamic system characterization using hydraulic series resistanceDongshin Kim, Naomi C Chesler, David J Beebe
SLAS Technology|June 20, 2020
Induced Pluripotent Stem Cells on a Chip: A Self-Contained, Accessible, Pipette-less iPSC Culturing and Differentiation KitPatrick McMinn, David J Guckenberger, David J Beebe
Analytical Chemistry|August 30, 2002
Principles of surface-directed liquid flow in microfluidic channelsBin Zhao, Jeffrey S Moore, David J Beebe
Pageof 29