Category:Microfluidics

Subcategories

This category has the following 5 subcategories, out of 5 total.

Media in category "Microfluidics"

The following 123 files are in this category, out of 123 total.

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  103testa-03c.jpg 2,652 × 1,958; 1.15 MB
  
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  3D microfluidic devices to support scalability and long-term homeostasis of brain organoids.jpg 4,252 × 2,316; 777 KB
  
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  3D-microfluidic Hydrodynamic Focusing Device (14412072702).jpg 3,650 × 2,318; 1.87 MB
  
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  A droplet inside the microchannel with surfactant coating.png 1,926 × 1,326; 419 KB
  
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  A sketch of a droplet inside the microchannel with surfactant coating..png 1,994 × 1,362; 428 KB
  
• A-Microfluidic-Chamber-for-Analysis-of-Neuron-to-Cell-Spread-and-Axonal-Transport-of-an-Alpha-pone.0002382.s001.ogv 26 s, 400 × 33; 13 KB
  
• A-Microfluidic-Chamber-for-Analysis-of-Neuron-to-Cell-Spread-and-Axonal-Transport-of-an-Alpha-pone.0002382.s002.ogv 31 s, 432 × 43; 46 KB
  
• A-Microfluidic-Device-for-Temporally-Controlled-Gene-Expression-and-Long-Term-Fluorescent-Imaging-pone.0001468.s009.ogv 20 s, 1,350 × 450; 7.58 MB
  
• A-Microfluidic-Device-for-Temporally-Controlled-Gene-Expression-and-Long-Term-Fluorescent-Imaging-pone.0001468.s010.ogv 8.6 s, 1,400 × 639; 9.5 MB
  
• A-Microfluidic-Device-for-Temporally-Controlled-Gene-Expression-and-Long-Term-Fluorescent-Imaging-pone.0001468.s011.ogv 22 s, 800 × 909; 7.38 MB
  
• A-Microfluidic-Device-for-Temporally-Controlled-Gene-Expression-and-Long-Term-Fluorescent-Imaging-pone.0001468.s012.ogv 18 s, 800 × 828; 6.5 MB
  
• A-Microfluidic-DNA-Library-Preparation-Platform-for-Next-Generation-Sequencing-pone.0068988.s005.ogv 3 min 10 s, 640 × 480; 3.82 MB
  
• A-Microscope-Automated-Fluidic-System-to-Study-Bacterial-Processes-in-Real-Time-pone.0007282.s002.ogv 8.3 s, 776 × 654; 822 KB
  
• A-Rapid-Capillary-Pressure-Driven-Micro-Channel-to-Demonstrate-Newtonian-Fluid-Behavior-of-41598 2017 2253 MOESM1 ESM.ogv 43 s, 1,521 × 711; 38.39 MB
  
• A-Rapid-Capillary-Pressure-Driven-Micro-Channel-to-Demonstrate-Newtonian-Fluid-Behavior-of-41598 2017 2253 MOESM2 ESM.ogv 15 s, 872 × 596; 11.87 MB
  
• A-Strip-Type-Microthrottle-Pump-Modeling-Design-and-Fabrication-sensors-13-03092-s001.ogv 7.1 s, 800 × 300; 186 KB
  
• A-Versatile-Class-of-Cell-Surface-Directional-Motors-Gives-Rise-to-Gliding-Motility-and-Sporulation-pbio.1001728.s010.ogv 7.3 s, 83 × 123; 64 KB
  
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  Acd15-0042-011.jpg 5,324 × 4,032; 8.11 MB
  
• Adenovirus-Tales-From-the-Cell-Surface-to-the-Nuclear-Pore-Complex-ppat.1004821.s001.ogv 13 s, 512 × 68; 180 KB
  
• An-Automated-Microfluidic-Multiplexer-for-Fast-Delivery-of-C.-elegans-Populations-from-Multiwells-pone.0074480.s006.ogv 1 min 1 s, 640 × 480; 1.15 MB
  
• An-Automated-Microfluidic-Multiplexer-for-Fast-Delivery-of-C.-elegans-Populations-from-Multiwells-pone.0074480.s007.ogv 1 min 27 s, 640 × 480; 1.23 MB
  
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  Assembled 'Minidrop' circuitboard.jpg 1,614 × 1,000; 539 KB
  
• Backscattering-particle-immunoassays-in-wire-guide-droplet-manipulations-1754-1611-2-15-S1.ogv 1 min 49 s, 640 × 480; 5.59 MB
  
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  CapillaryPressureContactAngle.png 744 × 841; 69 KB
  
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  CapillaryRise.png 640 × 542; 38 KB
  
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  Cross section of Digital Microfluidic device.png 657 × 222; 48 KB
  
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  DMF Array pic.pdf 1,754 × 525; 226 KB
  
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  DMF open and closed system.pdf 2,250 × 1,018; 257 KB
  
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  Double emulsion droplets.tif 1,392 × 1,040; 1 MB
  
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  Droplet Splitting Figure.png 3,000 × 1,050; 431 KB
  
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  Early prototype.jpg 1,920 × 2,560; 2.05 MB
  
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  Electromouillage cas 2.svg 514 × 528; 22 KB
  
• Expanding-Imaging-Capabilities-for-Microfluidics-Applicability-of-Darkfield-Internal-Reflection-pone.0116925.s001.ogv 15 s, 640 × 480; 213 KB
  
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  Flow Focusing Device.png 759 × 429; 17 KB
  
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  Flow Focusing Droplet Formation.gif 500 × 300; 18 KB
  
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  FlowFET I-V curve.png 1,274 × 907; 158 KB
  
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  Forces on fluid in a centrifugal microfluidic device.gif 392 × 392; 16 KB
  
• Gas4psi LONDs26uLmin-1 50kfps x10lens.webm 8.2 s, 384 × 269; 5.93 MB
  
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  Hydrodynamic flow focusing in a microfluidic device.png 2,952 × 1,968; 5.28 MB
  
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  LabDisk for SAXS aliquoting.gif 2,011 × 1,685; 1.32 MB
  
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  LabDisk for SAXS.gif 981 × 988; 768 KB
  
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  Logarithmic microfluidic gradient.png 1,328 × 1,428; 782 KB
  
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  Meso reactor detail iX-factory without Logo.jpg 799 × 696; 334 KB
  
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  Meso reactor detail iX-factory.jpg 800 × 694; 338 KB
  
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  Mesogefüge.jpg 1,622 × 783; 68 KB
  
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  Microfluidic channel, confocal 3D view (26183999723).jpg 4,488 × 3,069; 2.34 MB
  
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  Microfluidic Chip iX-factory.jpg 729 × 535; 160 KB
  
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  Microfluidic Device (6842746147).jpg 2,400 × 1,807; 3.01 MB
  
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  Microfluidic Electrocoalescence of Droplets.gif 500 × 300; 170 KB
  
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  Microfluidic palette (5880463875).jpg 2,100 × 1,575; 2.08 MB
  
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  Microfluidic Reservoir.png 1,046 × 341; 145 KB
  
• Microfluidic-Chips-for-In-Vivo-Imaging-of-Cellular-Responses-to-Neural-Injury-in-Drosophila-Larvae-pone.0029869.s006.ogv 11 s, 787 × 576; 1.52 MB
  
• Microfluidic-Chips-for-In-Vivo-Imaging-of-Cellular-Responses-to-Neural-Injury-in-Drosophila-Larvae-pone.0029869.s007.ogv 31 s, 787 × 576; 507 KB
  
• Microfluidic-Chips-for-In-Vivo-Imaging-of-Cellular-Responses-to-Neural-Injury-in-Drosophila-Larvae-pone.0029869.s008.ogv 5.3 s, 787 × 576; 321 KB
  
• Microfluidic-Chips-for-In-Vivo-Imaging-of-Cellular-Responses-to-Neural-Injury-in-Drosophila-Larvae-pone.0029869.s009.ogv 5.6 s, 787 × 576; 324 KB
  
• Microfluidic-Chips-for-In-Vivo-Imaging-of-Cellular-Responses-to-Neural-Injury-in-Drosophila-Larvae-pone.0029869.s010.ogv 10 s, 787 × 576; 651 KB
  
• Microfluidic-Chips-for-In-Vivo-Imaging-of-Cellular-Responses-to-Neural-Injury-in-Drosophila-Larvae-pone.0029869.s011.ogv 22 s, 787 × 576; 1.24 MB
  
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  MicrofluidicDevice.png 600 × 389; 22 KB
  
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  Microfluidics-based nanomedicine development.pdf 4,000 × 2,250, 15 pages; 1,000 KB
  
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  Microfluidics; Semiconductors (5884297491).jpg 2,400 × 1,463; 1.34 MB
  
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  Microreactor iX-factory.jpg 1,024 × 1,385; 879 KB
  
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  Mikromischer.JPG 1,280 × 960; 445 KB
  
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  Modified Flow Focusing Device.png 1,122 × 477; 39 KB
  
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  Multiplexed point-of-care testing (xPOCT).jpg 2,480 × 1,743; 374 KB
  
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  Nam-Trung Nguyen in 2021.jpg 768 × 1,022; 333 KB
  
• Neurite growth in a microfluidic device.webm 20 s, 1,032 × 1,080; 23.32 MB
  
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  Particle seperation in nL droplets.png 5,475 × 2,820; 3.54 MB
  
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  Passive Pillar Microdroplet Fusion.gif 500 × 300; 242 KB
  
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  Passive valving on a centrifugal microfluidic disc.gif 600 × 290; 42 KB
  
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  Peristaltic pump.png 562 × 490; 103 KB
  
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  Pico Injection.png 842 × 495; 28 KB
  
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  Powderblasthole iX-factory.jpg 1,365 × 1,024; 963 KB
  
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  Pump cycle diagram for peristaltic micropump.pdf 489 × 714; 8 KB
  
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  Pump cycle diagram for peristaltic micropump.svg 408 × 600; 41 KB
  
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  Rapid Mixing Using a Winding Channel.png 843 × 561; 80 KB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv001.ogv 2 min 25 s, 240 × 240; 384 KB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv002.ogv 2 min 25 s, 200 × 200; 451 KB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv003.ogv 2 min 25 s, 240 × 240; 249 KB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv004.ogv 2 min 25 s, 240 × 240; 256 KB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv005.ogv 2 min 25 s, 200 × 200; 226 KB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv006.ogv 2 min 25 s, 240 × 240; 151 KB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv007.ogv 2 min 25 s, 240 × 240; 220 KB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv008.ogv 2 min 25 s, 240 × 240; 137 KB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv009.ogv 33 s, 500 × 500; 4.75 MB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv010.ogv 33 s, 500 × 500; 5.01 MB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv011.ogv 1 min 6 s, 240 × 240; 3.17 MB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv012.ogv 33 s, 500 × 500; 1.52 MB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv013.ogv 33 s, 500 × 500; 2.59 MB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv014.ogv 33 s, 500 × 500; 2.42 MB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv015.ogv 33 s, 500 × 500; 2.31 MB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv016.ogv 20 s, 240 × 240; 1.47 MB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv017.ogv 13 s, 400 × 400; 226 KB
  
• Self-Organization-in-High-Density-Bacterial-Colonies-Efficient-Crowd-Control-pbio.0050302.sv018.ogv 9.2 s, 400 × 400; 4.55 MB
  
• Single-Cell-Analysis-of-Yeast-Replicative-Aging-Using-a-New-Generation-of-Microfluidic-Device-pone.0048275.s001.ogv 48 s, 258 × 245; 1.39 MB
  
• Statistical-Dynamics-of-Flowing-Red-Blood-Cells-by-Morphological-Image-Processing-pcbi.1000288.s001.ogv 6.0 s, 792 × 192; 989 KB
  
• Statistical-Dynamics-of-Flowing-Red-Blood-Cells-by-Morphological-Image-Processing-pcbi.1000288.s002.ogv 6.0 s, 792 × 192; 7.19 MB
  
• Statistical-Dynamics-of-Flowing-Red-Blood-Cells-by-Morphological-Image-Processing-pcbi.1000288.s003.ogv 6.0 s, 792 × 192; 8.37 MB
  
• Statistical-Dynamics-of-Flowing-Red-Blood-Cells-by-Morphological-Image-Processing-pcbi.1000288.s004.ogv 3.2 s, 560 × 420; 500 KB
  
• Statistical-Dynamics-of-Flowing-Red-Blood-Cells-by-Morphological-Image-Processing-pcbi.1000288.s005.ogv 6.0 s, 792 × 192; 939 KB
  
• Statistical-Dynamics-of-Flowing-Red-Blood-Cells-by-Morphological-Image-Processing-pcbi.1000288.s006.ogv 6.0 s, 792 × 192; 7.06 MB
  
• Statistical-Dynamics-of-Flowing-Red-Blood-Cells-by-Morphological-Image-Processing-pcbi.1000288.s007.ogv 6.0 s, 792 × 192; 8.41 MB
  
• Statistical-Dynamics-of-Flowing-Red-Blood-Cells-by-Morphological-Image-Processing-pcbi.1000288.s008.ogv 3.4 s, 560 × 420; 463 KB
  
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  Surfactant coated droplets in a reservoir.png 2,432 × 1,302; 784 KB
  
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  T Junction Microfluidic Device.gif 500 × 300; 15 KB
  
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  T-junction.png 843 × 320; 16 KB
  
• Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s008.ogv 5.2 s, 672 × 512; 3.18 MB
  
• Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s009.ogv 2.0 s, 1,147 × 1,024; 2.8 MB
  
• Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s010.ogv 2.9 s, 672 × 512; 2.73 MB
  
• Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s011.ogv 8.9 s, 672 × 512; 5.33 MB
  
• Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s012.ogv 7.3 s, 672 × 512; 6.19 MB
  
• Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s013.ogv 14 s, 672 × 512; 12.7 MB
  
• Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s014.ogv 4.8 s, 672 × 512; 3.6 MB
  
• Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s015.ogv 11 s, 672 × 512; 8.27 MB
  
• Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s016.ogv 2.9 s, 1,160 × 880; 6.98 MB
  
• Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s017.ogv 9.8 s, 672 × 512; 7.86 MB
  
• Understanding-the-Impact-of-2D-and-3D-Fibroblast-Cultures-on-In-Vitro-Breast-Cancer-Models-pone.0076373.s009.ogv 14 s, 640 × 480; 1.37 MB
  
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  Zoom on a 2mm chamber.JPG 1,247 × 1,396; 669 KB
  
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  «Близнецы-на-чипе» - технология будущего для испытания лекарств 01.jpg 4,096 × 3,072; 2.18 MB
  
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  «Близнецы-на-чипе» - технология будущего для испытания лекарств 02.png 2,560 × 1,920; 6.27 MB
  
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  «Близнецы-на-чипе» - технология будущего для испытания лекарств 03.png 2,560 × 1,920; 6.47 MB
  
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  «Близнецы-на-чипе» - технология будущего для испытания лекарств 04.png 2,560 × 1,920; 7.57 MB
  
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  «Близнецы-на-чипе» - технология будущего для испытания лекарств 05.png 2,560 × 1,920; 5.85 MB
  
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  «Близнецы-на-чипе» - технология будущего для испытания лекарств 06.png 2,560 × 1,920; 6.23 MB