File list
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Date | Name | Thumbnail | Size | User | Description |
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18:42, 1 May 2024 | Endothelial Microvessel Device.png (file) | 310 KB | Ejmoore | ||
12:57, 30 April 2024 | NKBMC04082024.jpg (file) | 348 KB | Noelani Kamelamela | ||
12:01, 30 April 2024 | SynergyH1cart.jpg (file) | 75 KB | Noelani Kamelamela | ||
10:38, 30 April 2024 | BMC 10X data.png (file) | 33 KB | Noelani Kamelamela | ||
06:08, 30 April 2024 | Pulsatile blood sim.jpg (file) | 670 KB | Nkokkula | Numerically simulated formation of RBC rouleaux under pulsatile flow at 0.96s. The black and red particles represent aggregated and nonaggregated RBCs, respectively. The color gradient is the shear rate in the flow (1/s). (a)-(d) are RBC distributions at velocity amplitudes from 0.5 mm/s to 1.3 mm/s at a mean flow velocity of 4 mm/s. (e)-(h) are RBC distributions at the same velocity amplitudes at a mean flow velocity of 5 mm/s. Lee, C.-A.; Paeng, D.-G. Numerical Simulation of Spatiotemporal... | |
06:04, 30 April 2024 | Pulsatile blood sim.webp (file) | Error creating thumbnail: mkdir: cannot create directory '/sys/fs/cgroup/memory/mediawiki/job/27877': No such file or directory
limit.sh: failed to create the cgroup.
convert: delegate failed `"dwebp" -pam "%i" -o "%o"' @ error/delegate.c/InvokeDelegate/1310.
convert: unable to open image `/tmp/magick-278800pawdAO4Ndui': No such file or directory @ error/blob.c/OpenBlob/2712.
convert: unable to open file `/tmp/magick-278800pawdAO4Ndui': No such file or directory @ error/constitute.c/ReadImage/540.
convert: no images defined `/home/wiki/public_html/tmp/transform_097548438bab.png' @ error/convert.c/ConvertImageCommand/3213.
Error code: 1 |
339 KB | Nkokkula | Numerically simulated formation of RBC rouleaux under pulsatile flow at 0.96s. The black and red particles represent aggregated and nonaggregated RBCs, respectively. The color gradient is the shear rate in the flow (1/s). (a)-(d) are RBC distributions at velocity amplitudes from 0.5 mm/s to 1.3 mm/s at a mean flow velocity of 4 mm/s. (e)-(h) are RBC distributions at the same velocity amplitudes at a mean flow velocity of 5 mm/s. Lee, C.-A.; Paeng, D.-G. Numerical Simulation of Spatiotemporal... |
05:54, 30 April 2024 | CFL in vitro.png (file) | 808 KB | Nkokkula | RBCs flow through a PDMS microfluidic channel and form an RBC-FL. The blue line tracks a single RBC across frames. The image was created by overlaying frames of a captured video. Pinto, E.; Faustino, V.; Rodrigues, R. O.; Pinho, D.; Garcia, V.; Miranda, J. M.; Lima, R. A Rapid and Low-Cost Nonlithographic Method to Fabricate Biomedical Microdevices for Blood Flow Analysis. Micromachines 2015, 6 (1), 121–135. https://doi.org/10.3390/mi6010121. is licensed under CC BY 4.0 | |
05:40, 30 April 2024 | Blood particle distribution.jpg (file) | 124 KB | Nkokkula | Representation of the distribution of WBCs, RBCs, and platelets in a blood vessel. The parabolic laminar velocity distribution is shown at the left end of the vessel. Wang, S.; Han, K.; Ma, S.; Qi, X.; Guo, L.; Li, X. Blood Cells as Supercarrier Systems for Advanced Drug Delivery. Med. Drug Discov. 2022, 13, 100119. https://doi.org/10.1016/j.medidd.2021.100119. is licensed under CC BY-NC-ND 4.04 | |
14:10, 29 April 2024 | Xu Lab Spring 2024-1.jpg (file) | 212 KB | Peisheng Xu | ||
11:24, 29 April 2024 | HighRisk.pdf (file) | 56 KB | Lacey Berry | ||
18:55, 28 April 2024 | Nonlineargradientmodel.jpeg (file) | 406 KB | Nmhatre | ||
18:24, 28 April 2024 | Nonlinear Gradient Tree with Varying Horizontal Channel Width.png (file) | 1.39 MB | Nmhatre | ||
18:18, 28 April 2024 | NIL2.png (file) | 244 KB | CarterPaul | ||
17:54, 28 April 2024 | Screenshot 2024-04-28 204106.png (file) | 89 KB | Mredder | Figure #1: Origami Folding | |
17:01, 28 April 2024 | Microfluidic DNA Sequencing - Source 7.png (file) | 71 KB | Khiemle | ||
16:51, 28 April 2024 | NIL.png (file) | 212 KB | CarterPaul | ||
16:35, 28 April 2024 | Microfluidic DNA Sequencing - Source 6.png (file) | 52 KB | Khiemle | ||
15:58, 28 April 2024 | NGS Technology Illustration.png (file) | 38 KB | Khiemle | ||
15:35, 28 April 2024 | CHAU Device 2.png (file) | 331 KB | Bfoss | Multiple levels on shear on 1 chip | |
15:09, 28 April 2024 | Sheet detatch.jpg (file) | 100 KB | CarterPaul | An illustration of standard cell detachment vs cell sheet detachment. (A) Cells harvested through enzymatic digestion. In this approach, cells lose their cell–cell junctions which cause them to float in a regular culture dish. (B) Cell sheet detachment through temperature control without any enzymatic digestion using temperature responsive culture dish. The temperature is lowered from 37 to 20 °C, which maintains the cell–cell junctions and ECM surface. | |
14:48, 28 April 2024 | Reactive coating.jpg (file) | 32 KB | CarterPaul | This image shows the steps to adding a reactive coating to a PDMS device | |
14:36, 28 April 2024 | Scaffold uses.jpg (file) | 95 KB | CarterPaul | This image shows the uses of 3D scaffold cell cultures and their current uses in cancer research | |
14:35, 28 April 2024 | Droplet hanging tech.jpg (file) | 13 KB | CarterPaul | image for 3D cell culture page | |
14:20, 28 April 2024 | Sanger's Method ddNTPs.jpg (file) | 93 KB | Khiemle | ||
20:39, 27 April 2024 | Perry MicrofluidicMesoPhases 2.png (file) | 2.66 MB | Courtneychau | ||
13:13, 27 April 2024 | FreeBoundaryMicrofluidicsTypes.png (file) | 253 KB | Rkeane | ||
08:20, 26 April 2024 | XiNingFigure2.jpeg (file) | 146 KB | Xning098 | ||
08:14, 26 April 2024 | Figure4Drawn.XiNing.jpeg (file) | 141 KB | Xning098 | ||
08:00, 26 April 2024 | DrawnFigure4XiNing.jpeg (file) | 127 KB | Xning098 | ||
07:38, 26 April 2024 | XiNingDrawnSetup2.png (file) | 248 KB | Xning098 | ||
07:35, 26 April 2024 | Figure 2 Set-up1.png (file) | 241 KB | Xning098 | ||
07:24, 26 April 2024 | DrawnElectoosmoticflow.jpeg (file) | 285 KB | Xning098 | ||
11:27, 25 April 2024 | Chemagic360.jpg (file) | 100 KB | Noelani Kamelamela | ||
08:02, 24 April 2024 | Pick and Place.mp4 (file) | 29.4 MB | Rcostello | ||
11:46, 23 April 2024 | SKR BMC.jpg (file) | 95 KB | Lttran | ||
19:40, 16 April 2024 | NIL1.png (file) | 196 KB | CarterPaul | ||
21:45, 15 April 2024 | Figure 4 Tdesign.png (file) | 147 KB | Xning098 | ||
21:30, 15 April 2024 | Figure 3 Set-up3.png (file) | 151 KB | Xning098 | ||
21:09, 15 April 2024 | Figure 1 electroosmotic flow.png (file) | 258 KB | Xning098 | ||
18:48, 14 April 2024 | MarginationSize.jpeg (file) | 424 KB | Nkokkula | Reprinted with permission from Namdee, K.; Thompson, A. J.; Charoenphol, P.; Eniola-Adefeso, O. Margination Propensity of Vascular-Targeted Spheres from Blood Flow in a Microfluidic Model of Human Microvessels. Langmuir 2013, 29 (8), 2530–2535. https://doi.org/10.1021/la304746p. Copyright 2013 American Chemical Society. | |
18:34, 14 April 2024 | NonlinearGradientDevice VaryingHorizontalChannelWidth.jpg (file) | 17 KB | Nmhatre | Device made by Abe et al. which creates a nonlinear gradient by varying the horizonatal channel widths. "Reprinted with permission from Abe, Y., Kamiya, K., Osaki, T., Sasaki, H., Kawano, R., Mikia, N., Takeuchi, S. Nonlinear concentration gradients regulated by the width of channels for observation of half maximal inhibitory concentration (IC50) of transporter protein. Royal Society of Chemistry. 2015,140. DOI: https://doi.org/10.1039/C4AN02201G. Copyright 2015Royal Society of Chemistry." | |
18:17, 14 April 2024 | NonlinearGradientDevice.jpg (file) | 134 KB | Nmhatre | A nonlinear gradient device created Selemovic et al. "Reprinted with permission from Šeila Selimović, Woo Young Sim, Sang Bok Kim, Yun Ho Jang, Won Gu Lee, Masoud Khabiry, Hojae Bae, Sachin Jambovane, Jong Wook Hong, and Ali Khademhosseini Analytical Chemistry 2011 83 (6), 2020-2028 DOI: 10.1021/ac2001737 . Copyright 2011 American Chemical Society." | |
18:12, 14 April 2024 | NonlinearGradientDevice.webp (file) | Error creating thumbnail: mkdir: cannot create directory '/sys/fs/cgroup/memory/mediawiki/job/27884': No such file or directory
limit.sh: failed to create the cgroup.
convert: delegate failed `"dwebp" -pam "%i" -o "%o"' @ error/delegate.c/InvokeDelegate/1310.
convert: unable to open image `/tmp/magick-27887wpyVnB4eYhbw': No such file or directory @ error/blob.c/OpenBlob/2712.
convert: unable to open file `/tmp/magick-27887wpyVnB4eYhbw': No such file or directory @ error/constitute.c/ReadImage/540.
convert: no images defined `/home/wiki/public_html/tmp/transform_985d00a0603c.png' @ error/convert.c/ConvertImageCommand/3213.
Error code: 1 |
43 KB | Nmhatre | A nonlinear gradient device created Selemovic et al. "Reprinted with permission from Šeila Selimović, Woo Young Sim, Sang Bok Kim, Yun Ho Jang, Won Gu Lee, Masoud Khabiry, Hojae Bae, Sachin Jambovane, Jong Wook Hong, and Ali Khademhosseini Analytical Chemistry 2011 83 (6), 2020-2028 DOI: 10.1021/ac2001737 . Copyright 2011 American Chemical Society." |
17:23, 14 April 2024 | NonlinearGradient GeneralEquations.jpg (file) | 9 KB | Nmhatre | Governing equation for modeling non-linear gradients. | |
12:42, 14 April 2024 | Micropillars Applications Mechanobiology.jpeg (file) | 38 KB | Bfoss | Long, Y., Sun, Y., Jin, L., Qin, Y., & Zeng, Y. (2023). Micropillars in biomechanics: Role in guiding mesenchymal stem cells differentiation and bone regeneration. Advanced Materials Interfaces, 11(2). https://doi.org/10.1002/admi.202300703 | |
12:31, 14 April 2024 | TipChip Schematic Mechanobiology.jpeg (file) | 16 KB | Bfoss | Naoki Yanagisawa, Elena Kozgunova, Guido Grossmann, Anja Geitmann, Tetsuya Higashiyama, Microfluidics-Based Bioassays and Imaging of Plant Cells, Plant and Cell Physiology, Volume 62, Issue 8, August 2021, Pages 1239–1250, https://doi.org/10.1093/pcp/pcab067 | |
12:11, 14 April 2024 | Liu SerpentineMicrochannel.png (file) | 161 KB | Courtneychau | ||
11:44, 14 April 2024 | Perry MicrofluidicMesoPhases 1.png (file) | 172 KB | Courtneychau | ||
17:02, 13 April 2024 | InterfacialShearingDiagram.png (file) | 117 KB | Rkeane | ||
16:27, 13 April 2024 | 3D jet writing of mechanically actuated tandem scaffolds.jpeg (file) | 146 KB | Rkeane |