Uploads by Davis Miller
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| Date | Name | Thumbnail | Size | Description |
|---|---|---|---|---|
| 18:45, 7 April 2017 | PEG brush surface.jpg (file) |  |
50 KB | Patchy PEG polymer brush surface. "How Bacteria Adhere to Brushy PEG Surfaces: Clinging to Flaws and Compressing the Brush"S. Gon, K.N. Kumar, K. Nusslein, and M.M. Santore, Macromolecules, 45, 8373-8381 (2012) |
| 18:42, 7 April 2017 | Hydrodynamic crossover.jpg (file) |  |
54 KB | Hydrodynamic crossover in cationic surface. "Hydrodynamic Crossover in Dynamic Microparticle Adhesion on Surfaces of Controlled Nanoscale Heterogeneity" S. Kalasin and M.M. Santore, Langmuir, 24, 4435-4438 (2008) |
| 18:40, 7 April 2017 | Cationic surface.jpg (file) |  |
66 KB | silica surface modified with cationic polyelectrolyte patches (poly dimethyl aminomethyl methacrylate) at varying percentages of coverage "Hydrodynamic Crossover in Dynamic Microparticle Adhesion on Surfaces of Controlled Nanoscale Heterogeneity" S. Kala |
| 18:33, 7 April 2017 | PEG brush.jpg (file) |  |
24 KB | Chemical structure of PLL-PEG polymer brushes on a negative surface. Röttgermann, P. J. et al. Cell motility on polyethylene glycol block copolymers correlates to fibronectin surface adsorption. Macromolecular bioscience, 14(12), 1755-1763. (2014). |
| 14:17, 24 March 2017 | Electrowetting valve test strip.PNG (file) |  |
278 KB | Koo, C., He, F., and Nugen, S. An inkjet-printed electrowetting valve for paper-fluidic sensors. Analyst 138, (2013): 4998–5004. DOI: 10.1039/c3an01114c Design of a later flow assay test strip utilizing electrowetting valves. |
| 12:14, 17 February 2017 | Electrowetting contact angle.png (file) |  |
8 KB | Contact angle and applied potential. By Juan Ignacio Polanco - Own work, CC0, https://commons.wikimedia.org/w/index.php?curid=29626856 |
