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Ingrid Fritsch

Showing results (11-20 of 30) with videos related to

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Analytical and Bioanalytical Chemistry|February 12, 2013
Detection of dopamine in the presence of excess ascorbic acid at physiological concentrations through redox cycling at an unmodified microelectrode arrayAnupama Aggarwal, Mengjia Hu, Ingrid Fritsch
Analytical Chemistry|April 13, 2010
Magnetic fields for fluid motionMelissa C Weston, Matthew D Gerner, Ingrid Fritsch
Analytical Chemistry|August 5, 2010
Redox-magnetohydrodynamic microfluidics without channels and compatible with electrochemical detection under immunoassay conditionsMelissa C Weston, Christena K Nash, Ingrid Fritsch
Analytical Chemistry|March 10, 2010
Investigations of redox magnetohydrodynamic fluid flow at microelectrode arrays using microbeadsEmily C Anderson, Melissa C Weston, Ingrid Fritsch
Analytical Chemistry|April 30, 2005
Use of paired, bonded NdFeB magnets in redox magnetohydrodynamicsPrabhu U Arumugam, Emily A Clark, Ingrid Fritsch
Analytical Chemistry|July 26, 2002
Self-contained microelectrochemical immunoassay for small volumes using mouse IgG as a model systemZoraida P Aguilar, Walter R Vandaveer, Ingrid Fritsch
Analytical Chemistry|March 30, 2013
3D imaging of flow patterns in an internally-pumped microfluidic device: redox magnetohydrodynamics and electrochemically-generated density gradientsFeng Gao, Adam Kreidermacher, Ingrid Fritsch, et al.
Biotechnology and Bioengineering|January 25, 2012
Evaluation of heart tissue viability under redox-magnetohydrodynamics conditions: toward fine-tuning flow in biological microfluidics applicationsLih Tyng Cheah, Ingrid Fritsch, Stephen J Haswell, et al.
Analytical Chemistry|October 13, 2012
Maximizing flow velocities in redox-magnetohydrodynamic microfluidics using the transient faradaic currentMelissa C Weston, Christena K Nash, Jerry J Homesley, et al.
Analytical Chemistry|January 30, 2010
Signal amplification in a microchannel from redox cycling with varied electroactive configurations of an individually addressable microband electrode arrayPenny M Lewis, Leah Bullard Sheridan, Robert E Gawley, et al.
Pageof 3

Showing results (11-20 of 30) with videos related to

Sort By:
Pageof 3
Analytical and Bioanalytical Chemistry|February 12, 2013
Detection of dopamine in the presence of excess ascorbic acid at physiological concentrations through redox cycling at an unmodified microelectrode arrayAnupama Aggarwal, Mengjia Hu, Ingrid Fritsch
Analytical Chemistry|April 13, 2010
Magnetic fields for fluid motionMelissa C Weston, Matthew D Gerner, Ingrid Fritsch
Analytical Chemistry|August 5, 2010
Redox-magnetohydrodynamic microfluidics without channels and compatible with electrochemical detection under immunoassay conditionsMelissa C Weston, Christena K Nash, Ingrid Fritsch
Analytical Chemistry|March 10, 2010
Investigations of redox magnetohydrodynamic fluid flow at microelectrode arrays using microbeadsEmily C Anderson, Melissa C Weston, Ingrid Fritsch
Analytical Chemistry|April 30, 2005
Use of paired, bonded NdFeB magnets in redox magnetohydrodynamicsPrabhu U Arumugam, Emily A Clark, Ingrid Fritsch
Analytical Chemistry|July 26, 2002
Self-contained microelectrochemical immunoassay for small volumes using mouse IgG as a model systemZoraida P Aguilar, Walter R Vandaveer, Ingrid Fritsch
Analytical Chemistry|March 30, 2013
3D imaging of flow patterns in an internally-pumped microfluidic device: redox magnetohydrodynamics and electrochemically-generated density gradientsFeng Gao, Adam Kreidermacher, Ingrid Fritsch, et al.
Biotechnology and Bioengineering|January 25, 2012
Evaluation of heart tissue viability under redox-magnetohydrodynamics conditions: toward fine-tuning flow in biological microfluidics applicationsLih Tyng Cheah, Ingrid Fritsch, Stephen J Haswell, et al.
Analytical Chemistry|October 13, 2012
Maximizing flow velocities in redox-magnetohydrodynamic microfluidics using the transient faradaic currentMelissa C Weston, Christena K Nash, Jerry J Homesley, et al.
Analytical Chemistry|January 30, 2010
Signal amplification in a microchannel from redox cycling with varied electroactive configurations of an individually addressable microband electrode arrayPenny M Lewis, Leah Bullard Sheridan, Robert E Gawley, et al.
Pageof 3