Meng Sun
Meng Sun
University of Michigan
Verified email at - Homepage
Cited by
Cited by
Microfluidic static droplet arrays with tuneable gradients in material composition
M Sun, SS Bithi, SA Vanapalli
Lab on a Chip 11 (23), 3949-3952, 2011
Automated microfluidic screening assay platform based on DropLab
WB Du, M Sun, SQ Gu, Y Zhu, Q Fang
Analytical chemistry 82 (23), 9941-9947, 2010
Blood plasma separation in a long two-phase plug flowing through disposable tubing
M Sun, ZS Khan, SA Vanapalli
Lab on a Chip 12 (24), 5225-5230, 2012
High-throughput sample introduction for droplet-based screening with an on-chip integrated sampling probe and slotted-vial array
M Sun, Q Fang
Lab on a Chip 10 (21), 2864-2868, 2010
Coalescing drops in microfluidic parking networks: A multifunctional platform for drop-based microfluidics
SS Bithi, WS Wang, M Sun, J Blawzdziewicz, SA Vanapalli
Biomicrofluidics 8 (3), 034118, 2014
Generation of Chemical Concentration Gradients in Mobile Droplet Arrays via Fragmentation of Long Immiscible Diluting Plugs
M Sun, SA Vanapalli
Analytical chemistry 85 (4), 2044-2048, 2013
Microfluidic liquid–liquid extraction system based on stopped-flow technique and liquid core waveguide capillary
M Sun, WB Du, Q Fang
Talanta 70 (2), 392-396, 2006
Ionophore‐Based Biphasic Chemical Sensing in Droplet Microfluidics
X Wang, M Sun, SA Ferguson, JD Hoff, Y Qin, RC Bailey, ME Meyerhoff
Angewandte Chemie International Edition 58 (24), 8092-8096, 2019
Localized Drug Application and Sub-Second Voltammetric Dopamine Release Measurements in a Brain Slice Perfusion Device
M Sun, SV Kaplan, RC Gehringer, RA Limbocker, MA Johnson
Analytical chemistry 86 (9), 4151-4156, 2014
Measurement of total antioxidant capacity in sub-μL blood samples using craft paper-based analytical devices
M Sun, MA Johnson
RSC Advances 5 (69), 55633-55639, 2015
Capillary-based microfluidic analysis systems
Q Fang, M Sun, YZ Huang
Analytical and bioanalytical chemistry 393 (1), 63-66, 2009
Plasticizer-free and pH-independent ion-selective optode films based on a solvatochromic dye
X Wang, Y Zhou, V Decker, ME Meyerhoff, M Sun, Y Cui
Analytical Methods 12, 2547-2550, 2020
Building Dynamic Cellular Machineries in Droplet-Based Artificial Cells with Single-Droplet Tracking and Analysis
M Sun, Z Li, S Wang, G Maryu, Q Yang
Analytical chemistry 91 (15), 9813-9818, 2019
μdroPi: A Hand-Held Microfluidic Droplet Imager and Analyzer Built on Raspberry Pi
M Sun, Z Li, Q Yang
Journal of Chemical Education 96 (6), 1152-1156, 2019
High-resolution mapping of the period landscape reveals polymorphism in cell cycle frequency tuning
Z Li, S Wang, M Sun, M Jin, D Khain, Q Yang
BioRxiv, 2021
Methods and Devices to Control Fluid Volumes, Reagent and Particle Concentration in Arrays of Microfluidic Drops
SA Vanapalli, SS Bithi, M Sun
US Patent App. 15/475,286, 2017
Manipulating T-junction chip for the generation of uniform O/W and W/O emulsions
CH Yeh, SJ Lee, M Sun, Q Fang, YC Lin
Microfluidics, BioMEMS, and Medical Microsystems VI 6886, 291-296, 2008
Plug-in tubes allow tunable oil removal, droplet packing, and reaction incubation for time-controlled droplet-based assays
M Sun, G Maryu, S Wang, Q Yang, RC Bailey
Biomicrofluidics 15 (2), 024108, 2021
孙蒙, 方群
CN Patent CN 101696916 A, 2010
An artificial cell-cycle system: how network structures modulate the clock functions
Z Li, S Wang, M Sun, O Puls, Y Guan, Q Yang
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