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Jian-Wei Khor
Jian-Wei Khor
Postdoctoral Scholar, Department of Chemistry, University of Washington, Seattle
Verified email at uw.edu
Title
Cited by
Cited by
Year
Using machine learning to discover shape descriptors for predicting emulsion stability in a microfluidic channel
JW Khor, N Jean, ES Luxenberg, S Ermon, SKY Tang
Soft matter 15 (6), 1361-1372, 2019
502019
Confinement and viscosity ratio effect on droplet break-up in a concentrated emulsion flowing through a narrow constriction
Y Gai, JW Khor, SKY Tang
Lab on a Chip 16 (16), 3058-3064, 2016
482016
Microfluidic guillotine for single-cell wound repair studies
LR Blauch, Y Gai, JW Khor, P Sood, WF Marshall, SKY Tang
Proceedings of the National Academy of Sciences 114 (28), 7283-7288, 2017
322017
Time-varying droplet configuration determines break-up probability of drops within a concentrated emulsion
JW Khor, M Kim, SS Schütz, TM Schneider, SKY Tang
Applied Physics Letters 111 (12), 2017
142017
Optoelectric patterning: Effect of electrode material and thickness on laser‐induced AC electrothermal flow
A Mishra, JW Khor, KN Clayton, SJ Williams, X Pan, T Kinzer‐Ursem, ...
Electrophoresis 37 (4), 658-665, 2016
132016
Interfacial tension driven open droplet microfluidics
JW Khor, UN Lee, J Berthier, E Berthier, AB Theberge
Advanced Materials Interfaces 10 (7), 2202234, 2023
112023
Interaction and breakup of droplet pairs in a microchannel Y-junction
SS Schütz, JW Khor, SKY Tang, TM Schneider
Physical Review Fluids 5 (8), 083605, 2020
92020
Single-acquisition wide-field superresolution for telescopes
S Wereley, Y Zhang, JW Khor, C Snoeyink
Applied Optics 55 (35), 10025-10029, 2016
92016
Miniaturizing chemistry and biology using droplets in open systems
Y Zeng, JW Khor, TL van Neel, W Tu, J Berthier, S Thongpang, E Berthier, ...
Nature Reviews Chemistry 7 (6), 439-455, 2023
82023
Strategic placement of an obstacle suppresses droplet break up in the hopper flow of a microfluidic soft crystal
AD Bick, JW Khor, Y Gai, SKY Tang
Proceedings of the National Academy of Sciences 118 (19), e2017822118, 2021
82021
Miniaturizing wet scrubbers for aerosolized droplet capture
UN Lee, TL van Neel, FY Lim, JW Khor, J He, RS Vaddi, AQW Ong, ...
Analytical chemistry 93 (33), 11433-11441, 2021
52021
Mapping surface tension induced menisci with application to tensiometry and refractometry
A Mishra, V Kulkarni, JW Khor, S Wereley
Soft Matter 11 (28), 5619-5623, 2015
52015
A microfabricated microfluidic bioMEMS device to model human brain aneurisms: the aneurysm-on-a-chip
LM Reece, JW Khor, R Thakur, A Amin, ST Wereley, JF Leary
Microfluidics, BioMEMS, and Medical Microsystems XIII 9320, 126-136, 2015
42015
Enhanced capillary pumping using open-channel capillary trees with integrated paper pads
JC Tokihiro, W Tu, J Berthier, JJ Lee, AM Dostie, JW Khor, M Eakman, ...
Physics of Fluids 35 (8), 2023
32023
Optimizing electrode thickness and material for laser-induced electrothermal flow
JW Khor
Purdue University, 2015
12015
Surface tension induced meniscus measurement using free surface synthetic Schlieren
A Mishra, V Kulkarni, JW Khor, S Wereley
12013
Open fluidic device for autonomous droplet generation and related methods of use for droplet formation and manipulation
JW Khor, AB Theberge, ESP Berthier, UN Lee, J Berthier, TM Nicholson
US Patent App. 18/314,343, 2023
2023
Strategic placement of an obstacle eliminates droplet break-up in the flow of a microfluidic concentrated emulsion
A Bick, JW Khor, Y Gai, SKY Tang
APS Division of Fluid Dynamics Meeting Abstracts, NP05. 149, 2019
2019
Predicting Droplet Breakup in a Concentrated Emulsion Flowing in a Microfluidic System
JW Khor
Stanford University, 2019
2019
Experimental and computational study of optically-driven electrothermal vortex
X Pan, JS Kwon, JW Khor, SMM Shamsi, ST Wereley
Progress in Computational Fluid Dynamics, an International Journal 19 (5 …, 2019
2019
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Articles 1–20