# | Title | Journal | Year | Citations |
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|
1 | Droplet microfluidics | Lab on A Chip | 2008 | 2,447 |
2 | Formation of droplets and bubbles in a microfluidic T-junction—scaling and mechanism of break-up | Lab on A Chip | 2006 | 1,908 |
3 | Paper-based microfluidic point-of-care diagnostic devices | Lab on A Chip | 2013 | 1,655 |
4 | Inertial microfluidics | Lab on A Chip | 2009 | 1,397 |
5 | Human gut-on-a-chip inhabited by microbial flora that experiences intestinal peristalsis-like motions and flow | Lab on A Chip | 2012 | 1,376 |
6 | Commercialization of microfluidic point-of-care diagnostic devices | Lab on A Chip | 2012 | 1,128 |
7 | An integrated digital microfluidic lab-on-a-chip for clinical diagnostics on human physiological fluidsThe Science and Application of Droplets in Microfluidic Devices.Electronic supplementary information (ESI) available: five video clips showing: high-speed transport of a droplet of blood across 4 electrodes; sample injection into an on-chip reservoir using an external pipette; droplet formation from an on-chip reservoir using only electrowetting forces; droplets moving in-phase on a 3-phase transport bus; | Lab on A Chip | 2004 | 1,030 |
8 | Magnetism and microfluidics | Lab on A Chip | 2006 | 1,024 |
9 | Electrowetting-based actuation of droplets for integrated microfluidicsElectronic supplementary information (ESI) available: six videos showing droplet flow, droplet dispensing and electrowetting. See http://www.rsc.org/suppdata/lc/b1/b110474h/ | Lab on A Chip | 2002 | 990 |
10 | Microfluidic platforms for lab-on-a-chip applications | Lab on A Chip | 2007 | 946 |
11 | Passive and active droplet generation with microfluidics: a review | Lab on A Chip | 2017 | 900 |
12 | The upcoming 3D-printing revolution in microfluidics | Lab on A Chip | 2016 | 888 |
13 | Droplet microfluidics for high-throughput biological assays | Lab on A Chip | 2012 | 885 |
14 | Multiphase microfluidics: from flow characteristics to chemical and materials synthesis | Lab on A Chip | 2006 | 873 |
15 | Dynamics of microfluidic droplets | Lab on A Chip | 2010 | 849 |
16 | Electrochemical sensing in paper-based microfluidic devices | Lab on A Chip | 2010 | 845 |
17 | 3D printed microfluidic devices: enablers and barriers | Lab on A Chip | 2016 | 842 |
18 | Microfluidic cell sorting: a review of the advances in the separation of cells from debulking to rare cell isolation | Lab on A Chip | 2015 | 837 |
19 | Wearable sensors: modalities, challenges, and prospects | Lab on A Chip | 2018 | 836 |
20 | Fluorescence-activated droplet sorting (FADS): efficient microfluidic cell sorting based on enzymatic activity | Lab on A Chip | 2009 | 811 |
21 | Engineers are from PDMS-land, Biologists are from Polystyrenia | Lab on A Chip | 2012 | 802 |
22 | Hydrogel bioprinted microchannel networks for vascularization of tissue engineering constructs | Lab on A Chip | 2014 | 796 |
23 | Fundamentals and applications of inertial microfluidics: a review | Lab on A Chip | 2016 | 772 |
24 | Engineering of functional, perfusable 3D microvascular networks on a chip | Lab on A Chip | 2013 | 746 |
25 | Surface acoustic wave microfluidics | Lab on A Chip | 2013 | 738 |
26 | Continuous flow separations in microfluidic devices | Lab on A Chip | 2007 | 719 |
27 | Lab-on-a-chip devices for global health: Past studies and future opportunities | Lab on A Chip | 2007 | 706 |
28 | A four-organ-chip for interconnected long-term co-culture of human intestine, liver, skin and kidney equivalents | Lab on A Chip | 2015 | 703 |
29 | Dynamic single cell culture array | Lab on A Chip | 2006 | 657 |
30 | Micro- and nanomechanical sensors for environmental, chemical, and biological detection | Lab on A Chip | 2007 | 647 |
31 | Centrifugal microfluidics for biomedical applications | Lab on A Chip | 2010 | 640 |
32 | FLASH: A rapid method for prototyping paper-based microfluidic devices | Lab on A Chip | 2008 | 634 |
33 | Characterization of a microfluidic in vitro model of the blood-brain barrier (μBBB) | Lab on A Chip | 2012 | 632 |
34 | Acoustic tweezers: patterning cells and microparticles using standing surface acoustic waves (SSAW) | Lab on A Chip | 2009 | 631 |
35 | Inertial microfluidics for continuous particle separation in spiral microchannels | Lab on A Chip | 2009 | 623 |
36 | Isothermal nucleic acid amplification technologies for point-of-care diagnostics: a critical review | Lab on A Chip | 2012 | 619 |
37 | Biocompatible surfactants for water-in-fluorocarbon emulsions | Lab on A Chip | 2008 | 604 |
38 | Micromachined impedance spectroscopy flow cytometer for cell analysis and particle sizing | Lab on A Chip | 2001 | 603 |
39 | 3D printed microfluidics for biological applications | Lab on A Chip | 2015 | 595 |
40 | Microengineered physiological biomimicry: Organs-on-Chips | Lab on A Chip | 2012 | 594 |
41 | Biological implications of polydimethylsiloxane-based microfluidic cell culture | Lab on A Chip | 2009 | 588 |
42 | Inertial microfluidic physics | Lab on A Chip | 2014 | 586 |
43 | Microdroplets: A sea of applications? | Lab on A Chip | 2008 | 583 |
44 | Continuous particle separation in spiral microchannels using dean flows and differential migration | Lab on A Chip | 2008 | 561 |
45 | Droplet formation in a microchannel network | Lab on A Chip | 2002 | 554 |
46 | A microfluidic ExoSearch chip for multiplexed exosome detection towards blood-based ovarian cancer diagnosis | Lab on A Chip | 2016 | 554 |
47 | Microfluidic device (ExoChip) for on-chip isolation, quantification and characterization of circulating exosomes | Lab on A Chip | 2014 | 548 |
48 | Design of pressure-driven microfluidic networks using electric circuit analogy | Lab on A Chip | 2012 | 541 |
49 | Multi-step synthesis of nanoparticles performed on millisecond time scale in a microfluidic droplet-based system | Lab on A Chip | 2004 | 526 |
50 | Biomolecular gradients in cell culture systems | Lab on A Chip | 2008 | 521 |