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  1. (hist) ‎Biopolymer network geometries: Characterization, regeneration, and elastic properties ‎[0 bytes]
  2. (hist) ‎Phase transformation ‎[0 bytes]
  3. (hist) ‎Hierarchical Bionanotubes Formed by the Self Assembly of Microtubules with Cationic Membranes or Polypeptides Journal of Applied Crystallography. ‎[0 bytes]
  4. (hist) ‎APPHY 226 in the spring of 2011 ‎[0 bytes]
  5. (hist) ‎Pleats in crystals on curved surfaces ‎[0 bytes]
  6. (hist) ‎Results ‎[0 bytes]
  7. (hist) ‎Asymmetric network connectivity using weighted harmonic averages ‎[0 bytes]
  8. (hist) ‎Glass-like dynamics of collective cell migration ‎[0 bytes]
  9. (hist) ‎Nanometer Patterning with Ice ‎[0 bytes]
  10. (hist) ‎Self-Organized Origami ‎[0 bytes]
  11. (hist) ‎Yielding and Flow of Monodisperse Emulsions ‎[0 bytes]
  12. (hist) ‎Adsorption Kinetics in Micellar Solutions of Nonionic Surfactants ‎[0 bytes]
  13. (hist) ‎Famous Korean Women Physicists ‎[12 bytes]
  14. (hist) ‎Homogeneous flow in metallic glasses: a free volume perspective ‎[16 bytes]
  15. (hist) ‎Cationic Membranes Complexed with Oppositely Charged Microtubules: Hierarchical Self-Assembly Leading to Bio-Nanotubes ‎[16 bytes]
  16. (hist) ‎Electromechanical instability in semicrystalline polymers ‎[18 bytes]
  17. (hist) ‎Capillary action ‎[19 bytes]
  18. (hist) ‎Fabrication of Micrometer-Scale, Patterned Polyhedra by Self-Assembly ‎[19 bytes]
  19. (hist) ‎SPIM and DSLM ‎[21 bytes]
  20. (hist) ‎Van Blaaderen ‎[23 bytes]
  21. (hist) ‎Micelles, inverse ‎[25 bytes]
  22. (hist) ‎Milk, micelles ‎[26 bytes]
  23. (hist) ‎Silicone ‎[28 bytes]
  24. (hist) ‎Polymerization - Living ‎[29 bytes]
  25. (hist) ‎Monolayers, self-assembled ‎[29 bytes]
  26. (hist) ‎Monolayers, Langmuir-Blodgett ‎[29 bytes]
  27. (hist) ‎Polymers - isomerisms ‎[30 bytes]
  28. (hist) ‎Degradation of polymers ‎[30 bytes]
  29. (hist) ‎Adsorption - of polymers ‎[30 bytes]
  30. (hist) ‎Random walk polymers ‎[31 bytes]
  31. (hist) ‎Foams, dry ice and soap ‎[31 bytes]
  32. (hist) ‎Spontaneous adsorption ‎[32 bytes]
  33. (hist) ‎Adsorption from solution ‎[32 bytes]
  34. (hist) ‎Solubilization, by micelles ‎[33 bytes]
  35. (hist) ‎Viscosity - polymer melts ‎[34 bytes]
  36. (hist) ‎Solvent effects in polymers ‎[35 bytes]
  37. (hist) ‎Adsorption, Gibbs' adsorption isotherm ‎[35 bytes]
  38. (hist) ‎Polymerization - Condensation ‎[36 bytes]
  39. (hist) ‎Universal ratios in polymers ‎[36 bytes]
  40. (hist) ‎Polyelectrolytes ‎[36 bytes]
  41. (hist) ‎Krafft temperature, of micelles ‎[37 bytes]
  42. (hist) ‎Self-avoiding polymers - fractal dimensions ‎[38 bytes]
  43. (hist) ‎Fractal dimensions - polymers ‎[38 bytes]
  44. (hist) ‎Osmotic pressure - Blob model ‎[38 bytes]
  45. (hist) ‎DeGennes model - polymer melts ‎[39 bytes]
  46. (hist) ‎Reptation model - polymer melts ‎[40 bytes]
  47. (hist) ‎Correlation lengths and blobs ‎[43 bytes]
  48. (hist) ‎Osmotic pressure - Polymer solutions ‎[45 bytes]
  49. (hist) ‎Robust Omniphobic surfaces ‎[45 bytes]
  50. (hist) ‎Solubilization, by micelles, in digestion ‎[46 bytes]
  51. (hist) ‎Semi-dilute regime of polymers ‎[47 bytes]
  52. (hist) ‎Second virial coefficent - polymers ‎[53 bytes]
  53. (hist) ‎Diffusion processes - three type of polymer diffusion ‎[54 bytes]
  54. (hist) ‎Topic 4: Surfactants ‎[57 bytes]
  55. (hist) ‎Reptation model - extensions ‎[58 bytes]
  56. (hist) ‎Magic ‎[59 bytes]
  57. (hist) ‎Five-fold symmetry ‎[60 bytes]
  58. (hist) ‎X-ray scattering ‎[60 bytes]
  59. (hist) ‎Dense random packing ‎[60 bytes]
  60. (hist) ‎Non-iridescent colors are generated by quasi-ordered structures of bird feathers ‎[69 bytes]
  61. (hist) ‎Self-assembled liquid crystalline foods ‎[72 bytes]
  62. (hist) ‎Molecular electronics ‎[73 bytes]
  63. (hist) ‎Charge-transport ‎[73 bytes]
  64. (hist) ‎Energy ‎[73 bytes]
  65. (hist) ‎Chemistry ‎[73 bytes]
  66. (hist) ‎Biology ‎[73 bytes]
  67. (hist) ‎Nanocrystals ‎[73 bytes]
  68. (hist) ‎Medicine ‎[73 bytes]
  69. (hist) ‎Excess free energy ‎[73 bytes]
  70. (hist) ‎Gibbs-Duhem ‎[73 bytes]
  71. (hist) ‎Positive Buoyancy ‎[74 bytes]
  72. (hist) ‎Negative Buoyancy ‎[74 bytes]
  73. (hist) ‎Contact Angle ‎[74 bytes]
  74. (hist) ‎Meng, G., Arkus, N., Brenner, M. P., & Manoharan, V. N. (2010). The Free-Energy Landscape of Clusters of Attractive Hard Spheres. Science, 327(5965), 560-563 ‎[74 bytes]
  75. (hist) ‎Suspensions ‎[75 bytes]
  76. (hist) ‎Self assembly of magnetically interacting cubes by a turbulent fluid flow ‎[78 bytes]
  77. (hist) ‎Permeability ‎[78 bytes]
  78. (hist) ‎Cross-links ‎[79 bytes]
  79. (hist) ‎Soft Robotics ‎[79 bytes]
  80. (hist) ‎Bacteria ‎[79 bytes]
  81. (hist) ‎Elastic shear modulus ‎[79 bytes]
  82. (hist) ‎Cooperative motility ‎[79 bytes]
  83. (hist) ‎Aggregation states ‎[81 bytes]
  84. (hist) ‎Lifshitz's Theory ‎[82 bytes]
  85. (hist) ‎Critical packing parameter ‎[83 bytes]
  86. (hist) ‎FCS ‎[84 bytes]
  87. (hist) ‎FCCS ‎[84 bytes]
  88. (hist) ‎Super-Resolution ‎[84 bytes]
  89. (hist) ‎Cell Adhesion ‎[85 bytes]
  90. (hist) ‎Mesophases ‎[85 bytes]
  91. (hist) ‎Modern imagining techniques ‎[86 bytes]
  92. (hist) ‎Three-phase junction ‎[90 bytes]
  93. (hist) ‎Jurin’s law ‎[90 bytes]
  94. (hist) ‎Jet ‎[90 bytes]
  95. (hist) ‎Painting ‎[90 bytes]
  96. (hist) ‎Coiling instability ‎[90 bytes]
  97. (hist) ‎Pollock ‎[90 bytes]
  98. (hist) ‎Rayleigh formula ‎[90 bytes]
  99. (hist) ‎Strouhal number ‎[90 bytes]
  100. (hist) ‎Nanotubes ‎[91 bytes]
  101. (hist) ‎Transmission Electron Microscopy ‎[91 bytes]
  102. (hist) ‎Ion Blockage ‎[91 bytes]
  103. (hist) ‎Phenotype ‎[91 bytes]
  104. (hist) ‎Progeny ‎[91 bytes]
  105. (hist) ‎Potential (voltage) ‎[91 bytes]
  106. (hist) ‎Charge Density ‎[91 bytes]
  107. (hist) ‎Graphene ‎[91 bytes]
  108. (hist) ‎Conductance ‎[91 bytes]
  109. (hist) ‎Nematics ‎[91 bytes]
  110. (hist) ‎Active matter ‎[91 bytes]
  111. (hist) ‎Nematic order ‎[91 bytes]
  112. (hist) ‎Dispersion Stability ‎[91 bytes]
  113. (hist) ‎Liquid crystalline structures ‎[91 bytes]
  114. (hist) ‎Liquid-infused structured surfaces with exceptional anti-biofouling performance ‎[91 bytes]
  115. (hist) ‎Low-cost ‎[92 bytes]
  116. (hist) ‎Confined flow ‎[92 bytes]
  117. (hist) ‎Drops ‎[92 bytes]
  118. (hist) ‎Nozzles ‎[92 bytes]
  119. (hist) ‎Rotational flow ‎[92 bytes]
  120. (hist) ‎Foam-suppression ‎[92 bytes]
  121. (hist) ‎Pitcher plant ‎[93 bytes]
  122. (hist) ‎Nanoposts ‎[94 bytes]
  123. (hist) ‎Fourier transform ‎[94 bytes]
  124. (hist) ‎Ordering ‎[94 bytes]
  125. (hist) ‎Periodicity ‎[94 bytes]
  126. (hist) ‎Microfluidic devices ‎[94 bytes]
  127. (hist) ‎Diagnosis ‎[94 bytes]
  128. (hist) ‎Thread ‎[94 bytes]
  129. (hist) ‎Paper ‎[94 bytes]
  130. (hist) ‎Asymmetry parameter ‎[94 bytes]
  131. (hist) ‎Equipartition theorem ‎[95 bytes]
  132. (hist) ‎Cell membrane ‎[95 bytes]
  133. (hist) ‎Liquid metal ‎[95 bytes]
  134. (hist) ‎Surface-induced layering ‎[95 bytes]
  135. (hist) ‎Capillary wave ‎[95 bytes]
  136. (hist) ‎X-Ray reflectivity ‎[95 bytes]
  137. (hist) ‎Resonance frequency ‎[95 bytes]
  138. (hist) ‎Fabrication and Wetting Properties of Metallic Half-Shells with Submicron Diameters ‎[95 bytes]
  139. (hist) ‎Janus particle ‎[97 bytes]
  140. (hist) ‎Bulk emulsification ‎[97 bytes]
  141. (hist) ‎Triple Emulsions ‎[97 bytes]
  142. (hist) ‎Flexible electronics ‎[97 bytes]
  143. (hist) ‎Electronic skin ‎[97 bytes]
  144. (hist) ‎Electron-beam evaporation ‎[97 bytes]
  145. (hist) ‎Diffusion coefficient ‎[98 bytes]
  146. (hist) ‎Particles ‎[99 bytes]
  147. (hist) ‎Sedimentation ‎[99 bytes]
  148. (hist) ‎Motion ‎[99 bytes]
  149. (hist) ‎Microbubbles ‎[100 bytes]
  150. (hist) ‎Atomizer ‎[100 bytes]
  151. (hist) ‎Delivery ‎[100 bytes]
  152. (hist) ‎Microcapsules ‎[100 bytes]
  153. (hist) ‎Oil-in-water emulsions ‎[100 bytes]
  154. (hist) ‎Dispersion polymerization ‎[100 bytes]
  155. (hist) ‎Patchy particles ‎[100 bytes]
  156. (hist) ‎Drug discovery ‎[100 bytes]
  157. (hist) ‎Latex particles ‎[100 bytes]
  158. (hist) ‎Flexible Electronics ‎[100 bytes]
  159. (hist) ‎Topic 2: Surface Forces ‎[100 bytes]
  160. (hist) ‎Single-cell assay ‎[101 bytes]
  161. (hist) ‎Soap film ‎[101 bytes]
  162. (hist) ‎Inertia regime ‎[101 bytes]
  163. (hist) ‎Patterned substrate ‎[101 bytes]
  164. (hist) ‎FLIM ‎[101 bytes]
  165. (hist) ‎Florescence Lifetime Imagining Microscopy ‎[101 bytes]
  166. (hist) ‎Biological imagining ‎[101 bytes]
  167. (hist) ‎Origin of life ‎[101 bytes]
  168. (hist) ‎Semi-permeable vesicles ‎[101 bytes]
  169. (hist) ‎Suspension ‎[101 bytes]
  170. (hist) ‎Laplace Pressure Derivation ‎[101 bytes]
  171. (hist) ‎Topic 3: Stability of thin films ‎[101 bytes]
  172. (hist) ‎Kinetochore ‎[102 bytes]
  173. (hist) ‎High throughput ‎[103 bytes]
  174. (hist) ‎Liquid Crystal ‎[103 bytes]
  175. (hist) ‎Interface stress ‎[103 bytes]
  176. (hist) ‎Curvature ‎[103 bytes]
  177. (hist) ‎Polysome ‎[104 bytes]
  178. (hist) ‎Surface ‎[105 bytes]
  179. (hist) ‎Bryan Weinstein ‎[105 bytes]
  180. (hist) ‎Mitosis ‎[106 bytes]
  181. (hist) ‎Spindle Fibers ‎[106 bytes]
  182. (hist) ‎Self Avoidance ‎[106 bytes]
  183. (hist) ‎Cell Division ‎[106 bytes]
  184. (hist) ‎Diploid ‎[106 bytes]
  185. (hist) ‎Haploid ‎[106 bytes]
  186. (hist) ‎Capillaries ‎[106 bytes]
  187. (hist) ‎Arrays ‎[106 bytes]
  188. (hist) ‎Filling ‎[106 bytes]
  189. (hist) ‎Biomineralization ‎[106 bytes]
  190. (hist) ‎Drop cascade ‎[107 bytes]
  191. (hist) ‎Polydispersity ‎[107 bytes]
  192. (hist) ‎Nonoverlap (hard-sphere) constraint ‎[107 bytes]
  193. (hist) ‎Silanization ‎[107 bytes]
  194. (hist) ‎Sphere packings ‎[107 bytes]
  195. (hist) ‎Active Network ‎[107 bytes]
  196. (hist) ‎Biopolymer ‎[107 bytes]
  197. (hist) ‎Loss Modulus ‎[107 bytes]
  198. (hist) ‎Mechanical Properties ‎[107 bytes]
  199. (hist) ‎Molecular Motors ‎[107 bytes]
  200. (hist) ‎Passive Network ‎[107 bytes]
  201. (hist) ‎Polymer Network ‎[107 bytes]
  202. (hist) ‎Storage Modulus ‎[107 bytes]
  203. (hist) ‎Put the title of the paper you are going to review between these brackets and hit the "SAVE Page" below. ‎[108 bytes]
  204. (hist) ‎Osmosis ‎[108 bytes]
  205. (hist) ‎Lithography ‎[108 bytes]
  206. (hist) ‎Nanobubble ‎[109 bytes]
  207. (hist) ‎Silica fines ‎[109 bytes]
  208. (hist) ‎Water-ethanol suspensions ‎[109 bytes]
  209. (hist) ‎Solvation film ‎[109 bytes]
  210. (hist) ‎Hydration forces ‎[109 bytes]
  211. (hist) ‎Surface forces ‎[109 bytes]
  212. (hist) ‎Free Volume Theory ‎[109 bytes]
  213. (hist) ‎Modulus ‎[109 bytes]
  214. (hist) ‎Plastic Flow ‎[109 bytes]
  215. (hist) ‎Shear Band ‎[109 bytes]
  216. (hist) ‎Shear Transformation Zone ‎[109 bytes]
  217. (hist) ‎Structural Relaxation ‎[109 bytes]
  218. (hist) ‎Self-healing ‎[110 bytes]
  219. (hist) ‎Surface texture ‎[110 bytes]
  220. (hist) ‎SLIPS ‎[110 bytes]
  221. (hist) ‎Liquid-repellent surface ‎[110 bytes]
  222. (hist) ‎Biomolecule detection ‎[111 bytes]
  223. (hist) ‎Viscous modulus ‎[111 bytes]
  224. (hist) ‎Weibull distribution ‎[111 bytes]
  225. (hist) ‎Bamboo film ‎[111 bytes]
  226. (hist) ‎Electrostatic repulsion ‎[111 bytes]
  227. (hist) ‎Black films ‎[111 bytes]
  228. (hist) ‎Elastic shell ‎[111 bytes]
  229. (hist) ‎Defects ‎[111 bytes]
  230. (hist) ‎Microfluidic dye laser ‎[112 bytes]
  231. (hist) ‎Whispering gallery mode ‎[112 bytes]
  232. (hist) ‎Switching ‎[112 bytes]
  233. (hist) ‎Rayleigh-Plateau instability ‎[112 bytes]
  234. (hist) ‎Absolute instability ‎[112 bytes]
  235. (hist) ‎Plasmid ‎[112 bytes]
  236. (hist) ‎DNA segregation ‎[112 bytes]
  237. (hist) ‎Crystal Structure ‎[112 bytes]
  238. (hist) ‎Micropillars ‎[112 bytes]
  239. (hist) ‎Self-Assembled Structures ‎[112 bytes]
  240. (hist) ‎Structured Surfaces ‎[112 bytes]
  241. (hist) ‎Chung Jong Yu ‎[113 bytes]
  242. (hist) ‎Plithotaxis ‎[113 bytes]
  243. (hist) ‎Cell motion ‎[113 bytes]
  244. (hist) ‎Cell collective ‎[113 bytes]
  245. (hist) ‎Monolayer stress microscopy ‎[113 bytes]
  246. (hist) ‎Intercellular interactions ‎[113 bytes]
  247. (hist) ‎Microchannel ‎[113 bytes]
  248. (hist) ‎Streaming potential ‎[113 bytes]
  249. (hist) ‎Bragg ‎[113 bytes]
  250. (hist) ‎Resonance ‎[113 bytes]
  251. (hist) ‎Disorder ‎[113 bytes]
  252. (hist) ‎Photonic liquid ‎[113 bytes]
  253. (hist) ‎Screening ‎[113 bytes]
  254. (hist) ‎Spectrometer ‎[113 bytes]
  255. (hist) ‎In vitro translation ‎[114 bytes]
  256. (hist) ‎Nanoskiving ‎[114 bytes]
  257. (hist) ‎Microtome ‎[114 bytes]
  258. (hist) ‎Top-down approach ‎[114 bytes]
  259. (hist) ‎Capillarity and wet ‎[115 bytes]
  260. (hist) ‎Self assembly ‎[115 bytes]
  261. (hist) ‎Electrical double layer ‎[115 bytes]
  262. (hist) ‎Double layer ‎[115 bytes]
  263. (hist) ‎Liquid alloys ‎[116 bytes]
  264. (hist) ‎Surface crystals ‎[116 bytes]
  265. (hist) ‎Medical adhesive ‎[117 bytes]
  266. (hist) ‎Nanotopography ‎[117 bytes]
  267. (hist) ‎Poisson-Boltzmann theory ‎[117 bytes]
  268. (hist) ‎Colloidal ‎[117 bytes]
  269. (hist) ‎Shells ‎[117 bytes]
  270. (hist) ‎Armoring ‎[117 bytes]
  271. (hist) ‎Potential well ‎[117 bytes]
  272. (hist) ‎Topic 1: Brownian Motion ‎[117 bytes]
  273. (hist) ‎Sonication-assisted synthesis of large, high-quality mercury-thiolate single crystals directly from liquid mercury ‎[118 bytes]
  274. (hist) ‎Entangled polymer melts ‎[118 bytes]
  275. (hist) ‎Two-dimensional confinement ‎[118 bytes]
  276. (hist) ‎Monte Carlo simulation ‎[118 bytes]
  277. (hist) ‎Aqueous two-phase system ‎[119 bytes]
  278. (hist) ‎Functionalised particles ‎[119 bytes]
  279. (hist) ‎Colloidal clusters ‎[119 bytes]
  280. (hist) ‎Random energy model ‎[119 bytes]
  281. (hist) ‎Graph coloring theorem ‎[119 bytes]
  282. (hist) ‎DNA-coated particles ‎[119 bytes]
  283. (hist) ‎Self-assembly yield ‎[119 bytes]
  284. (hist) ‎Laminar mixing ‎[120 bytes]
  285. (hist) ‎Peclet number ‎[120 bytes]
  286. (hist) ‎Cell migration ‎[120 bytes]
  287. (hist) ‎Cell-based assays ‎[121 bytes]
  288. (hist) ‎Noise-reduction ‎[121 bytes]
  289. (hist) ‎Dilution ‎[121 bytes]
  290. (hist) ‎Filament Bundling ‎[123 bytes]
  291. (hist) ‎Cell Alignment ‎[123 bytes]
  292. (hist) ‎Crack-free films ‎[123 bytes]
  293. (hist) ‎Nanoporous ‎[123 bytes]
  294. (hist) ‎Sickle Cell Anemia ‎[123 bytes]
  295. (hist) ‎Surface effect ‎[123 bytes]
  296. (hist) ‎Pattern formation ‎[123 bytes]
  297. (hist) ‎Self-organization ‎[123 bytes]
  298. (hist) ‎Propulsion ‎[123 bytes]
  299. (hist) ‎Static phase ‎[125 bytes]
  300. (hist) ‎Non-spherical particles ‎[125 bytes]
  301. (hist) ‎Reactions in double emulsions by flow-controlled coalescence of encapsulated drops ‎[126 bytes]
  302. (hist) ‎PNIPAAm ‎[126 bytes]
  303. (hist) ‎Microelectrode ‎[126 bytes]
  304. (hist) ‎Micropatterning ‎[126 bytes]
  305. (hist) ‎Cell trapping ‎[126 bytes]
  306. (hist) ‎Statistical mechanics ‎[126 bytes]
  307. (hist) ‎Turbulent flow ‎[126 bytes]
  308. (hist) ‎Liquid undercooling ‎[127 bytes]
  309. (hist) ‎Free-volume model ‎[127 bytes]
  310. (hist) ‎Non-wettability ‎[127 bytes]
  311. (hist) ‎Electrokinetic effect ‎[127 bytes]
  312. (hist) ‎Polydisperse ‎[128 bytes]
  313. (hist) ‎Morphology ‎[128 bytes]
  314. (hist) ‎Non-adsorbing ‎[128 bytes]
  315. (hist) ‎Transient gelation ‎[128 bytes]
  316. (hist) ‎C2AB ‎[128 bytes]
  317. (hist) ‎Protein ‎[128 bytes]
  318. (hist) ‎Elastomer ‎[128 bytes]
  319. (hist) ‎Spark ‎[128 bytes]
  320. (hist) ‎Functionalized ‎[128 bytes]
  321. (hist) ‎Electrometer ‎[128 bytes]
  322. (hist) ‎Functional group ‎[128 bytes]
  323. (hist) ‎Axial ‎[129 bytes]
  324. (hist) ‎Lateral ‎[129 bytes]
  325. (hist) ‎Reynolds ‎[129 bytes]
  326. (hist) ‎Particle order ‎[129 bytes]
  327. (hist) ‎Shear-thickening ‎[129 bytes]
  328. (hist) ‎Nanoporous gel ‎[129 bytes]
  329. (hist) ‎Flow-induced structure ‎[129 bytes]
  330. (hist) ‎Electro-osmosis flow ‎[129 bytes]
  331. (hist) ‎Light-induced dielectrophoresis ‎[129 bytes]
  332. (hist) ‎Magnetic beads ‎[129 bytes]
  333. (hist) ‎TiOPc ‎[129 bytes]
  334. (hist) ‎Ion-Transfer Mechanism ‎[130 bytes]
  335. (hist) ‎Discharge Threshold ‎[130 bytes]
  336. (hist) ‎Dry Contact ‎[130 bytes]
  337. (hist) ‎Humidity (contact) ‎[130 bytes]
  338. (hist) ‎Glass-transition temperature ‎[130 bytes]
  339. (hist) ‎Paper microfluidics ‎[130 bytes]
  340. (hist) ‎Capillary-driven flow ‎[130 bytes]
  341. (hist) ‎Microchannels ‎[131 bytes]
  342. (hist) ‎Poly(dimethysiloxane) ‎[131 bytes]
  343. (hist) ‎Poroelasticity ‎[131 bytes]
  344. (hist) ‎Indentation ‎[131 bytes]
  345. (hist) ‎Compression ‎[131 bytes]
  346. (hist) ‎Relaxation ‎[131 bytes]
  347. (hist) ‎Differentially Charged Hollow Core/Shell Lipid–Polymer–Lipid Hybrid Nanoparticles for Small Interfering RNA Delivery ‎[131 bytes]
  348. (hist) ‎Omniphobicity ‎[132 bytes]
  349. (hist) ‎Self-repair ‎[132 bytes]
  350. (hist) ‎Liposomes ‎[133 bytes]
  351. (hist) ‎Zwitterion ‎[133 bytes]
  352. (hist) ‎Cationic nanoparticles ‎[133 bytes]
  353. (hist) ‎Nanocrystal ‎[133 bytes]
  354. (hist) ‎Colloidal stability ‎[133 bytes]
  355. (hist) ‎Germanium ‎[133 bytes]
  356. (hist) ‎Benzonitrile ‎[133 bytes]
  357. (hist) ‎Cellular contraction ‎[134 bytes]
  358. (hist) ‎Red blood cell ‎[134 bytes]
  359. (hist) ‎Wettability ‎[134 bytes]
  360. (hist) ‎Fluctuation-dissipation ‎[134 bytes]
  361. (hist) ‎Liquid-crystal ‎[135 bytes]
  362. (hist) ‎Kristopher Martin ‎[136 bytes]
  363. (hist) ‎Micropillar ‎[136 bytes]
  364. (hist) ‎Thiol ‎[136 bytes]
  365. (hist) ‎Carbon Black ‎[136 bytes]
  366. (hist) ‎Drop ‎[136 bytes]
  367. (hist) ‎Drug Delivery ‎[136 bytes]
  368. (hist) ‎Fluid Jet ‎[136 bytes]
  369. (hist) ‎Magnetic ‎[136 bytes]
  370. (hist) ‎Contact line ‎[136 bytes]
  371. (hist) ‎Confocal microscope ‎[136 bytes]
  372. (hist) ‎Boussinesq ‎[136 bytes]
  373. (hist) ‎Beads-on-a-string model ‎[137 bytes]
  374. (hist) ‎Polymer folding ‎[137 bytes]
  375. (hist) ‎Structural color ‎[137 bytes]
  376. (hist) ‎Irridescence ‎[137 bytes]
  377. (hist) ‎Quasi-ordered structures ‎[137 bytes]
  378. (hist) ‎Modified dielectrophoresis ‎[137 bytes]
  379. (hist) ‎Fixed dipole ‎[137 bytes]
  380. (hist) ‎Induced dipole moment ‎[137 bytes]
  381. (hist) ‎Particle tracking microscopy ‎[137 bytes]
  382. (hist) ‎Fluctuation-response theorem ‎[138 bytes]
  383. (hist) ‎Signalling network ‎[138 bytes]
  384. (hist) ‎Escherichia coli ‎[138 bytes]
  385. (hist) ‎Protein folding ‎[138 bytes]
  386. (hist) ‎Nonequilibrium ‎[138 bytes]
  387. (hist) ‎Curvature-mediated interactions ‎[138 bytes]
  388. (hist) ‎Thermal energy ‎[138 bytes]
  389. (hist) ‎Nanobowls ‎[138 bytes]
  390. (hist) ‎Spontaneous ordering ‎[138 bytes]
  391. (hist) ‎Dielectric breakdown ‎[138 bytes]
  392. (hist) ‎Electric discharge ‎[138 bytes]
  393. (hist) ‎Friction ‎[138 bytes]
  394. (hist) ‎Permeation ‎[139 bytes]
  395. (hist) ‎Surfactant monolayer ‎[140 bytes]
  396. (hist) ‎Molecular dynamics simulation ‎[140 bytes]
  397. (hist) ‎Link 1 ‎[140 bytes]
  398. (hist) ‎Aluminum Foam ‎[141 bytes]
  399. (hist) ‎Chemical patterning in 3D ‎[141 bytes]
  400. (hist) ‎Encryption ‎[141 bytes]
  401. (hist) ‎Foams, Extended reading ‎[143 bytes]
  402. (hist) ‎Tilting plate ‎[143 bytes]
  403. (hist) ‎Hysteresis of the contact angle ‎[143 bytes]
  404. (hist) ‎Low-Cost Diagnostics ‎[143 bytes]
  405. (hist) ‎Medical Devices ‎[143 bytes]
  406. (hist) ‎Patterned Surfaces ‎[143 bytes]
  407. (hist) ‎Wicking ‎[143 bytes]
  408. (hist) ‎Interfacial Tension ‎[144 bytes]
  409. (hist) ‎Nanofoam ‎[144 bytes]
  410. (hist) ‎Dynamic materials ‎[144 bytes]
  411. (hist) ‎Charged interface ‎[145 bytes]
  412. (hist) ‎Electron-beam ‎[145 bytes]
  413. (hist) ‎Capillary assay ‎[146 bytes]
  414. (hist) ‎Chemotactic response ‎[146 bytes]
  415. (hist) ‎Ice cream floats ‎[147 bytes]
  416. (hist) ‎Metal Foam ‎[148 bytes]
  417. (hist) ‎Polyurethane ‎[148 bytes]
  418. (hist) ‎Multifunctional assemblies ‎[148 bytes]
  419. (hist) ‎Contact Printing ‎[148 bytes]
  420. (hist) ‎Volta, Conte Alessandro ‎[149 bytes]
  421. (hist) ‎Convective assembly ‎[149 bytes]
  422. (hist) ‎Force balance ‎[149 bytes]
  423. (hist) ‎Hyrdostatic pressure ‎[149 bytes]
  424. (hist) ‎Dynamic equilibrium ‎[149 bytes]
  425. (hist) ‎Thermodynamic Casimir force ‎[149 bytes]
  426. (hist) ‎Correlation length ‎[149 bytes]
  427. (hist) ‎Adsorption and foaming ‎[150 bytes]
  428. (hist) ‎Dry ice and soap foams ‎[150 bytes]
  429. (hist) ‎Beer foams ‎[150 bytes]
  430. (hist) ‎Capillary pressure ‎[150 bytes]
  431. (hist) ‎Voltaic pile ‎[151 bytes]
  432. (hist) ‎Emulsions, Extended reading ‎[151 bytes]
  433. (hist) ‎Imbibition ‎[151 bytes]
  434. (hist) ‎Thermodynamics ‎[151 bytes]
  435. (hist) ‎Grant Gonzalez ‎[151 bytes]
  436. (hist) ‎Whiskey ‎[152 bytes]
  437. (hist) ‎Thin, soft films ‎[152 bytes]
  438. (hist) ‎Finite element method ‎[152 bytes]
  439. (hist) ‎Polymer solution ‎[152 bytes]
  440. (hist) ‎Stern Layer ‎[153 bytes]
  441. (hist) ‎Hybrid materials ‎[153 bytes]
  442. (hist) ‎Micro patterns ‎[153 bytes]
  443. (hist) ‎Flotation ‎[154 bytes]
  444. (hist) ‎Nanowires ‎[154 bytes]
  445. (hist) ‎Science education ‎[154 bytes]
  446. (hist) ‎Pair Correlation Function ‎[155 bytes]
  447. (hist) ‎Adsorbents ‎[156 bytes]
  448. (hist) ‎Phase Rule, Introduction ‎[156 bytes]
  449. (hist) ‎Miniemulsions ‎[156 bytes]
  450. (hist) ‎Antifoams ‎[156 bytes]
  451. (hist) ‎Gel ‎[156 bytes]
  452. (hist) ‎Microstructures ‎[156 bytes]
  453. (hist) ‎Conjugated polymers ‎[156 bytes]
  454. (hist) ‎Differential scanning calorimetry (DSC) ‎[156 bytes]
  455. (hist) ‎X-ray ‎[156 bytes]
  456. (hist) ‎Volta potential ‎[157 bytes]
  457. (hist) ‎Emulsion types ‎[157 bytes]
  458. (hist) ‎Microemulsions ‎[157 bytes]
  459. (hist) ‎Forces - Polymers at surfaces ‎[158 bytes]
  460. (hist) ‎Food emulsions ‎[158 bytes]
  461. (hist) ‎Nanoemulsions ‎[158 bytes]
  462. (hist) ‎Dispersion ‎[158 bytes]
  463. (hist) ‎Biosurfactants ‎[159 bytes]
  464. (hist) ‎Foam exploration ‎[159 bytes]
  465. (hist) ‎Nanostructure ‎[159 bytes]
  466. (hist) ‎Microstructure ‎[159 bytes]
  467. (hist) ‎Single-domain crystal ‎[159 bytes]
  468. (hist) ‎Polycrystalline ‎[159 bytes]
  469. (hist) ‎Gibbs free energy ‎[159 bytes]
  470. (hist) ‎Onsager's principle ‎[159 bytes]
  471. (hist) ‎Thin films - flow ‎[160 bytes]
  472. (hist) ‎Surfactants, vesicles ‎[160 bytes]
  473. (hist) ‎Macroemulsions ‎[160 bytes]
  474. (hist) ‎Physics of foam ‎[160 bytes]
  475. (hist) ‎Foam stability ‎[160 bytes]
  476. (hist) ‎Steric stabilization ‎[160 bytes]
  477. (hist) ‎Fluid mechanics ‎[160 bytes]
  478. (hist) ‎Sorting ‎[160 bytes]
  479. (hist) ‎Cake batter ‎[161 bytes]
  480. (hist) ‎Stability ‎[161 bytes]
  481. (hist) ‎Liquid structure ‎[162 bytes]
  482. (hist) ‎Three-phase foams ‎[162 bytes]
  483. (hist) ‎Simple polymers ‎[162 bytes]
  484. (hist) ‎Hydrophobic surfaces ‎[162 bytes]
  485. (hist) ‎Vesicles, of surfactants ‎[163 bytes]
  486. (hist) ‎Mentos-Coke experiment ‎[163 bytes]
  487. (hist) ‎Critical Casimir Effect in 3D Ising Systems: Measurements on Binary Wetting Films ‎[164 bytes]
  488. (hist) ‎Introduction to surfactants ‎[164 bytes]
  489. (hist) ‎Fields, volts, charges - examples ‎[164 bytes]
  490. (hist) ‎Volts, fields, charges - examples ‎[164 bytes]
  491. (hist) ‎Charges and electric fields ‎[164 bytes]
  492. (hist) ‎Making emulsions ‎[164 bytes]
  493. (hist) ‎Bubble formation ‎[164 bytes]
  494. (hist) ‎Silicone antifoams ‎[164 bytes]
  495. (hist) ‎Fire fighting foam ‎[164 bytes]
  496. (hist) ‎Flow ‎[164 bytes]
  497. (hist) ‎A New Determination of Molecular Dimensions ‎[165 bytes]
  498. (hist) ‎Micelles, in milk ‎[165 bytes]
  499. (hist) ‎Galvani, Luigi ‎[165 bytes]
  500. (hist) ‎Emulsifiers ‎[165 bytes]

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