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Carolyn Ren
Carolyn Ren
University of Waterloo
Verified email at uwaterloo.ca - Homepage
Title
Cited by
Cited by
Year
Zeta-potential measurement using the Smoluchowski equation and the slope of the current–time relationship in electroosmotic flow
A Sze, D Erickson, L Ren, D Li
Journal of colloid and interface science 261 (2), 402-410, 2003
9182003
Detection of microdroplet size and speed using capacitive sensors
C Elbuken, T Glawdel, D Chan, CL Ren
Sensors and Actuators A: Physical 171 (2), 55-62, 2011
2272011
Interfacial electrokinetic effects on liquid flow in microchannels
L Ren, W Qu, D Li
International journal of heat and mass transfer 44 (16), 3125-3134, 2001
2142001
Droplet formation in microfluidic T-junction generators operating in the transitional regime. I. Experimental observations
T Glawdel, C Elbuken, CL Ren
Physical Review E 85 (1), 016322, 2012
1932012
Method for microfluidic whole-chip temperature measurement using thin-film poly (dimethylsiloxane)/Rhodamine B
R Samy, T Glawdel, CL Ren
Analytical chemistry 80 (2), 369-375, 2008
1792008
Electro-viscous effects on liquid flow in microchannels
L Ren, D Li, W Qu
Journal of colloid and interface science 233 (1), 12-22, 2001
1572001
Electroosmotic flow in heterogeneous microchannels
L Ren, D Li
Journal of colloid and interface science 243 (1), 255-261, 2001
1422001
Droplet formation in microfluidic T-junction generators operating in the transitional regime. II. Modeling
T Glawdel, C Elbuken, CL Ren
Physical Review E 85 (1), 016323, 2012
1362012
Direct and indirect electroosmotic flow velocity measurements in microchannels
D Sinton, C Escobedo-Canseco, L Ren, D Li
Journal of Colloid and Interface Science 254 (1), 184-189, 2002
1042002
Droplet formation in microfluidic T-junction generators operating in the transitional regime. III. Dynamic surfactant effects
T Glawdel, CL Ren
Physical Review E 86 (2), 026308, 2012
942012
Model of droplet generation in flow focusing generators operating in the squeezing regime
X Chen, T Glawdel, N Cui, CL Ren
Microfluidics and nanofluidics 18, 1341-1353, 2015
882015
Evaluation of polydimethylsiloxane (PDMS) surface modification approaches for microfluidic applications
Z Almutairi, CL Ren, L Simon
Colloids and Surfaces A: Physicochemical and Engineering Aspects 415, 406-412, 2012
882012
Microwave sensing and heating of individual droplets in microfluidic devices
MS Boybay, A Jiao, T Glawdel, CL Ren
Lab on a Chip 13 (19), 3840-3846, 2013
842013
Global network design for robust operation of microfluidic droplet generators with pressure-driven flow
T Glawdel, CL Ren
Microfluidics and nanofluidics 13, 469-480, 2012
842012
Effective thermo-capillary mixing in droplet microfluidics integrated with a microwave heater
G Yesiloz, MS Boybay, CL Ren
Analytical chemistry 89 (3), 1978-1984, 2017
832017
Improved understanding of the effect of electrical double layer on pressure-driven flow in microchannels
CL Ren, D Li
Analytica Chimica Acta 531 (1), 15-23, 2005
792005
Photobleaching absorbed Rhodamine B to improve temperature measurements in PDMS microchannels
T Glawdel, Z Almutairi, S Wang, C Ren
Lab on a Chip 9 (1), 171-174, 2009
772009
A new method of evaluating the average electro-osmotic velocity in microchannels
L Ren, C Escobedo-Canseco, D Li
Journal of Colloid and Interface Science 250 (1), 238-242, 2002
732002
A microfluidic chip integrated with droplet generation, pairing, trapping, merging, mixing and releasing
X Chen, CL Ren
RSC advances 7 (27), 16738-16750, 2017
722017
Numerical simulation of microfluidic injection processes in crossing microchannels
L Ren, D Sinton, D Li
Journal of Micromechanics and Microengineering 13 (5), 739, 2003
722003
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