Диссертация (1144795), страница 57
Текст из файла (страница 57)
Drying and Deposition of Poly(ethylene oxide) Dryingdroplets determined by peclet number / K.A. Baldwin, M. Granjard,D.I. Willmer, K. Sefiane, D.J. Fairhurst // Soft Matter. – 2011. – №7. –7819–7826.190. Barash L.Y. Approximate analytical descriptions of the stationary single-vortex Marangoni convection inside an evaporating sessile dropletof capillary size // Phys. Rev.
E, submitted. – 2013. – arXiv:1308.0342.191. Barash L.Y. Dependence of fluid flows in an evaporating sessile droplet on the characteristics of the substrate // Phys. Rev. E, submitted. –2014. – arXiv: 1407.6049.192. Barmi M.R. Convective flows in evaporating sessile droplets / M.R.Barmi, C.D.
Meinhart // The Journal of Physical Chemistry B. –2014,118(9). – P. 2414–2421.354193. Batchelor G.K. An Introduction to Fluid Dynamics /G.K. Batchelor//Cambridge University Press, Cambridge. – 1967. – P. 220.194. Bay H. SURF: Speeded up robust features / H. Bay, A. Ess, T. Tuytelaars, L. Van Gool // Computer Vision and Image Understanding. –2008. – V. 110. – P. 346–359.195. Belmiloud N. Dynamics of the drying defects left by residual ultrapure water droplets on silicon substrate / N.
Belmiloud, A.H. Tamaddon, H. Struyf, X. Xua // ECS Journal of Solid State Science andTechnology. – 2012. – Vol. 1 (1). – P. 34–39.196. Best C.H. The physiological basis of medical practice / C.H. Best, N.B.Taylor. – London, 1961. – P. 243.197. Bhardwaj R. Self-assembly of Particles From Evaporating ColloidalDroplets: Role of the pH and Proposition of a Phase Diagram / R.Bhardwaj, X. Fang, P. Somasundaran, D.
Attinger // Langmuir. – 2010.– v. 26 (11). – P. 7833–7842.198. Blake T.D. The physics of moving wetting lines /T.D.Blake //J ColloidInterface Sci. – 2006. – 299. – P. 1–13.199. Bolen, H.L. The Blood Pattern as a Clue to the Diagnosis of MalignantDisease / H.L. Bolen // J Lab Clin Med. – 1942.
– Vol. 27. – P. 15221536.200. Bonacurso E. Microdrops on atomic force microscope cantilevers:evaporation of water and spring constant calibration / E. Bonacurso,H.J. Butt // The Journal of Physical Chemistry B. – 1995. – v. 109(1). –P. 253–263.201. Boomgaard R. Mathematical Morphology: Extension Towards Computer Vision. – Academisch proefscrift. Faculteit der Wiskunde en Informatica de Universiteit van Amsterdam, 1992. – 155 p.202. Braun F.N. Adhesion and liquid-liquid phase separation in globularprotein solutions / F.N. Braun // J. Chem. Phys. – 2002.
– V.116. –355№15. – P. 6826–6830.203. Brutin D. Pattern Formation in Drying Drops of Blood / D. Brutin B.Sobac B. Loquet J. Sampol // J. Fluid Mech. – 2011. – v. 667. – P. 85–95.204. Brutin D. Desiccation of a sessile drop of blood: Cracks, folds formation and delamination /D. Brutin, B. Sobac // Colloids and SurfacesA: Physicochem. Eng. Aspects. – 2014. – Vol. 448. – P. 34–44.205. Brutin D. Influence of substrate nature on the evaporation of a sessiledrop of blood / D.
Brutin, B. Sobac, C. Nicloux // Journal of HeatTransfer. – 2012. – Vol 134. – 061101. – P. 1–9.206. Brutin D. Triple-Line Behavior and Wettability Controlled by Nanocoated Substrates: Influence on Sessile Drop Evaporation / / D. Brutin,B.
Sobac // Langmuir. – 2011. – Vol. 27. – P. 14999–15007.207. Carle F. Experimental evidence of the atmospheric convectivetransport contribution to sessile droplet evaporation / F. Carle, B. Sobac, D. Brutin // Applied Physics Letters. – 2013. – Vol. 102. –061603. – P. 1–4.208. Chang B.H. Salting-out in the aqueous single-protein solution: the effect of shape factor / B.H. Chang, Y.C.
Bae // Biophys. Chem. – 2003.– v.104. – P. 523–533.209. Chen G. Complex Protein Patterns Formation via Salt-Induced SelfAssembly and Droplet Evaporation / G. Chen, G.J. Mohamed // Eur.Phys. J. E. – 2010. – v.33. – P. 19–26.210. Chen P.C. Segmentation by Texture Using Correlation / P.C. Chen, T.Pavlidis // PAMI(5).
– N.1. – January 1983. – P. 64–69.211. Chen W. Molecular dynamics simulations of the evaporation of particle-laden droplets / W. Chen, J. Koplik, I. Kretzschmar // Physical Review E. – 2013. – Vol. 87, 052404. – P. 1–5.212. Chen X., Chen P.G., Ouazzani J. et al. Numerical simulations of sessile356droplet evaporating on heated substrate /X.
Chen, P.G. Chen, J. Ouazzani // The European Physical Journal Special Topics.– 2017. –Vol. 226. – 6. – P. 1325–1335.213. Churaev N.V. Contact angles and surface forces / N.V. Churaev // Advances in Colloid and Interface Science. – 1995. – v. 58(2-3) . – P. 87–118.214. Collins K.D.
Sticky ions in biological systems / K.D. Collins // Proc.Natl. Acad. Sci. USA. – 1995. – v.92. – P. 5553–5557.215. Collins К.D. Charge density-dependent strength of hydration and biological structure / K.D. Collins // Biophysical Journal. – 1997. – v.72. –P. 65–76.216. Cooper C.L. Polyelectrolyteprotein complexes / C.L. Cooper, P.L. Dubin, A.B. Kayitmazer, S. Turksen // Current Opinion in Colloid and Interface Science. – 2005. – v.10.
– P. 52–78.217. Cornec M. Effect of contaminant on adsorbtion of whey proteins at theair-water interface / M. Cornec, G. Narsimhan // Journal of Agricultural and Food Chemistry. – 1998. – v.46. – P. 2490–2498.218. Curtis R.A. Protein-protein and protein-salt interactions in aqueousprotein solutions containing concentrated electrolytes / R.A. Curtis,J.M. Prausnitz, H.W.
Blanch // Biotechnol. Bioeng. – 1998. – v.57. –P. 11–21.219. Dash S. Droplet evaporation on heated hydrophobic and superhydrophobic surfaces / S. Dash, S.V. Garimella // Physical Review E. –2014. – Vol. 89. – 042402. – P. 1–8.220 De Gennes P.G. Polymers at an interface: a simplified view / P.G. DeGennes // Adv. Colloid Interface Science. – 1987. – v.27. – P.
189–209.221. De Gennes P.G. Capillarity and Wetting Phenomena / P.G. De Gennes,F. Brochard-Wyart, D. Quere. – Springer. – 2004. – P. 299.357222. De Xammar J.R.O. Role of co-solute in biomolecular stability: glucose, urea and water structure / J.R.O. De Xammar // J. Biol. Phys. –2001. – v.27. – P. 73–79.223. Deegan R.D. Contact line deposits in an evaporating drop / R.D.
Deegan, O. Bakajin T.F. Dupont G. Huber S.R. Nagel, T.A. Witten //Physical Review E. – 2000. – v. 62(1) . – P. 756–765.224. Deegan R.D., Ph.D. thesis, Department of Physics, University of Chicago, 1998.225. Deegan R.D. Capillary flow as the cause of ring stains from dried liquid drops / R.D. Deegan, O. Bakajin, T.F. Dupont, G.
Huber, S.R.Nagel, T.A. Witten // Nature. – 1997. – v.389. – №23. – P. 827–829.226. Deegan R.D. Pattern Formation in Drying Drops / R.D. Deegan //Physical Review E. – 2000. – v.61. – №1. – P. 475–485.227. Derkachov G. Ultrathermometry of evaporating droplets / G. Derkachov, D. Jakubczyk, M.
Woźniak, J. Archer, M. Kolwas // 10-Th International Conference on Laser-light and Interaction with Particles. –25–29 August 2014. – Marseille. – France. – PC–19.– P. 1–3.228. Dormandy J.A. Medical and engineering problems of blood viscosity /J.A. Dormandy // Biomed. Eng. – 1974. – v.9. – №27. – P.284–291.229. Driessen G. Reaction of erythrocyte velocity in capillaries upon reduction of hematocrit value / G. Driessen, H.
Heidtman, H. SchmidSchonbein // Biorheology. – 1979. – v.16. – №1–2. – P. 125–126.230. Duan F. Three-dimensional Monte Carlo model of the coffee-ring effect in evaporating colloidal droplets / F. Duan, A. Crivoi // ScientificReports. – 07 March 2014. – Vol.4. – Article number: 4310. P. 1–6.231. Ehrich R.W. A view of texture topology and texture description / R.W.Ehrich, J.P. Foith // Comput. Graph.
Image Proc. – 1978. – v.8. – №2.– P. 174.232. Encyclopedia of Nanoscience and Nanotechnology: volume 1–25 / ed-358ited by H.S. Nalwa. – 2011. – v.10. – P. 1–23.233. Fainerman V.B. Competitive adsorbtion from mixed nonionic surfactant/protein solutions / V.B. Fainerman, S.A. Zholob, M.E. Leser //Journal of Colloid and Interface Science. – 2004.
– v.274. – P. 496–501.234. Fischer B.J. Particle Convection in an Evaporating Colloidal Droplet /B.J. Fischer // Langmuir. – 2002. – v.18. – P. 60–67.235. Freed-Brown J. Evaporative Deposition in Receding Drops // Soft Matter. – 2014. – 10, Advance Article.236.
Fulton A.B. How crowded is the cytoplasm / A.B. Fulton // Cell. –1982. – v.30. – №2. – P. 345–347.237. Gagalowicz, A. Sequential synthesis of natural textures / A. Gagalowicz, Song De Ma // Computer Vision, Graphics, and Image Processing. – Vol. 30(3). – 1985. – P. 289–315.238.
Gamba P. A comparison between wavelet and threshold detection ofrain patterns from radar data / P. Gamba, A. Marazzi // Proc. of sixthinternational conference on image processing and its applications. –1997. – v. 2. – P. 541–545.239. Gatapova E.Y. Evaporation of a sessile water drop on a heated surfacewithcontrolled wettability / E.Y.
Gatapova, A.A. Semenov, D.V.Zaitsev, O.A. Kabov // Colloids and Surfaces A: Physicochem. Eng.Aspects. – 2014. – Vol. 441. – P. 776– 785.240. Giorgiutti-Dauphin´e F., Paucharda L. Elapsed time for crack formation during drying // Eur. Phys. J. E. – 2014. – 37: 39. – P. 1–7.241. Glasner K.B.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
