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Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Eftekhari, M., Schwarzenberger, K., Karakashev, S.I., Grozev, N. A., Eckert, K., 2024, “Oppositely charged surfactants and nanoparticles at the air-water interface: Influence of surfactant to nanoparticle ratio”, Journal of Colloid and Interface Science, 653, 1388-1401.
Öèòèðàíà â:
1.Alvarenga, B.G., et al., Challenges in screening nanoparticles for CO2-foam stabilization: From atmospheric to high-pressure conditions. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2025. 720, IF=4.9.
2.Bai, Y., et al., Research progress on nanoparticle-enhanced surfactant-based fracturing fluids: A comprehensive review. Chemical Engineering Research and Design, 2025. 220: p. 29-48, IF=3.9
3.Carbone, C., et al., Interfacial dilational rheology of chitosan-silica nanocomposite films at the aqueous dispersion/air interface. Journal of Molecular Liquids, 2025. 425, IF=5.3.
4.Khalifa, Y.A., et al., Thermodynamics, reaction Dynamics, and Temperature-Dependent Mechanistic insights into Surfactant-Free and Surfactant-Mediated formation of selenium nanoparticles in aqueous media. Journal of Molecular Liquids, 2025. 427, IF=5.3.
5.Lee, J.H., C.H. Choi, and H. Lee, A Universal Strategy for Microcapsule Diversity via Interfacial Surfactant Complexation in Fluorocarbon Oil-Based Triple Emulsions. Advanced Functional Materials, 2025. 35(13), IF=19.
6.Luo, J., et al., Mechanistic insights into the role of ether-bearing collectors in enhancing low-rank coal flotation: Experimental and molecular simulation. Journal of Environmental Chemical Engineering, 2025. 13(3), IF=7.6.
7.Sahal, H., Revolutionizing biomedicine with rare earth element nanoparticles: physical properties and biotechnological potential. Journal of Nanoparticle Research, 2025. 27(10), IF=2.5.
8.Tomasella, P., et al., Time-resolved study of nanoparticle adsorption at liquid surfaces: structure, thermodynamics and kinetics. Journal of Colloid and Interface Science, 2025. 698, IF=9.4.
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05.12.2025 |
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Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Petkova, N., Ivanova-Stancheva, D., Grozev, N.A., Mircheva, K., Karakashev, S.I., 2024, “Counter-ion effect on the surface potential of foam films and foams
stabilized by 0.5 mmol/L sodium dodecyl sulfate“, Coatings, Vol. 14(1), 51.
Öèòèðàíà â:
1.Zamanis, A.T., et al., An Innovative Approach for Assessing Foam Stability Based on Electrical Conductivity Measurements of Liquid Films. Colloids and Interfaces, 2025. 9(4), IF = 4.9.
2.Zhao, W., Z. Xu, and L. Long, Zwitterionic short-chain fluorocarbon surfactant: synthesis, synergy with hydrocarbon surfactants, and effects of inorganic salts on surface activity and foam performance. Surfaces and Interfaces, 2025. 72, IF = 6.3.
|
05.12.2025 |
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Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Karakashev, S.I., Ivanova-Stancheva, D.S., Grozev, N.A., Mircheva, K.M., 2024, “Behaviour of froth in absence and presence of particles”, Minerals Engineering, Vol. 212, 108715.
Öèòèðàíà â:
1.Eardley, J.C., et al., Flocculation-flotation of ultrafine hematite from quartz using anionic polyacrylamide as a selective flocculant. Minerals Engineering, 2025. 227, IF=4.9.
|
05.12.2025 |
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Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
 ãîäèøíèê
| Ñòàòèè
| Vanya Nikolova, Stela Asenova, Roberta Ruseva, Irina Yotova, Stanislav Donchev, Dilyana Ivanova-Stancheva, Stoyan Karakashev, Effect of Surfactant Adsorption and Surface properties on Emulsion Film Drainage, Proceedings of the National Conference with International Participation “Natural Sciences”, 10-12.10.2025, Shumen, University Publishing House “Episkop Konstantin Preslavsky”, Shumen, 2025, pp. 16-25. ÍÐÑ ID3495 |
12.11.2025 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
 ãîäèøíèê
| Ñòàòèè
| Miglena Bankova, Stanislava Stamenova, Ivan Georgiev, Irina Yotova, Stanislav Donchev, Dilyana Ivanova-Stancheva, Stoyan Karakashev, Limitations of Foam drainage theory. Proceedings of the National Conference with International Participation “Natural Sciences”, 10-12.10.2025, Shumen, University Publishing House “Episkop Konstantin Preslavsky”, Shumen, 2025, pp. 7-15. ÍÐÑ ID3495 |
12.11.2025 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
 ðåôåðèðàíè èçäàíèÿ
| Ñòàòèè
| Karakashev, S. I., Grozev, N. A., Stancheva-Ivanova, D., Yotova, I., & Donchev, S., 2025, On the Nature of the Air/Water Interface. Chemistry and Biochemistry: Research Progress Vol. 2, 19–51. https://doi.org/10.9734/bpi/cbrp/v2/3239. |
12.11.2025 |
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Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Cavdar, Y. E., Karakashev, S.I., Donchev, S., Yotova, I., Ozdemir, O., 2025, “Ion-specific effects on the bubble coalescence in aqueous medium”, Physicochem. Probl. Miner. Process., vol. 61 (3), 204586.
Öèòèðàíà â:
Shamukuni, T.O., et al., Calcium and sulfate Ions on flotation performance of a Cu-Ni-PGM ore in the presence of anionic polyacrylamide and carboxymethyl cellulose. Minerals Engineering, 2025. 234, IF=4.9
|
12.11.2025 |
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Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
 ðåôåðèðàíè èçäàíèÿ
| Ñòàòèè
| Cavdar, Y. E., Karakashev, S.I., Donchev, S., Yotova, I., Ozdemir, O., 2025, “Ion-specific effects on the bubble coalescence in aqueous medium”, Physicochemical Problems of Mineral Processing, vol. 61 (3), 204586, https://doi.org/10.37190/ppmp/204586 |
12.11.2025 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Tsekov, R.; Grozev, N.A.; Delcheva, I.V.; Ivanov, I.T.; Balashev, K.; Karakashev, S.I. Delta-comb potential in modeling three-phase contact line (TPCL) on periodically patterned surfaces. J Phys Chem B 2012, 116, 13248-13253, doi:10.1021/jp307250c. |
12.11.2024 |
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Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Nguyen, A.V.; Karakashev, S.I.; Jameson, G.J. Effect of interfacial properties on water drainage and recovery in a froth column. In Proceedings of 23rd International Mineral Processing Congress, IMPC 2006, Istanbul; pp. 756-761. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Ozdemir, O.; Karakashev, S.I.; Nguyen, A.V.; Miller, J.D. Adsorption of carbonate and bicarbonate salts at the air-brine interface. International Journal of Mineral Processing 2006, 81, 149-158, doi:10.1016/j.minpro.2006.07.016. |
12.11.2024 |
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Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Phan, C.M.; Nguyen, A.V. Effect of sodium dodecylbenzene sulfonate on the motion of three-phase contact lines on the Wilhelmy plate surface. Journal of Colloid and Interface Science 2005, 291, 489-496, doi:10.1016/j.jcis.2005.05.030. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Nguyen, A.V.; Manev, E.D.; Phan, C.M. Surface foam film waves studied with high-speed linescan camera. Colloids Surf. A Physicochem. Eng. Asp. 2005, 262, 23-32, doi:10.1016/j.colsurfa.2005.04.012. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Manev, E.D. Correlation in the properties of aqueous single films and foam containing a nonionic surfactant and organic/inorganic electrolytes. Journal of Colloid and Interface Science 2003, 259, 171-179, doi:10.1016/S0021-9797(02)00189-3. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Manev, E.D. Effect of interactions between the adsorbed species on the properties of single and mixed-surfactant monolayers at the air/water interface. Journal of Colloid and Interface Science 2002, 248, 477-486, doi:10.1006/jcis.2001.8206. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Manev, E.D. Frothing behavior of nonionic surfactant solutions in the presence of organic and inorganic electrolytes. Journal of Colloid and Interface Science 2001, 235, 194-196, doi:10.1006/jcis.2000.7288. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.; Tsekov, R.; Manev, E. Adsorption of alkali dodecyl sulfates on air/water surface. Langmuir 2001, 17, 5403-5405, doi:10.1021/la010584y. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.; Manev, E.; Nguyen, A. Interpretation of negative values of the interaction parameter in the adsorption equation through the effects of surface layer heterogeneity. Adv Colloid Interface Sci 2004, 112, 31-36, doi:10.1016/j.cis.2004.06.002. |
12.11.2024 |
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Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Manev, E.D.; Sazdanova, S.V.; Tsekov, R.; Karakashev, S.I.; Nguyen, A.V. Adsorption of ionic surfactants. Colloids Surf. A Physicochem. Eng. Asp. 2008, 319, 29-33, doi:10.1016/j.colsurfa.2007.08.022. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Kruglyakov, P.M.; Karakashev, S.I.; Nguyen, A.V.; Vilkova, N.G. Foam drainage. Curr. Opin. Colloid Interface Sci. 2008, 13, 163-170, doi:10.1016/j.cocis.2007.11.003. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Nguyen, P.T.; Tsekov, R.; Hampton, M.A.; Nguyen, A.V. Anomalous ion effects on rupture and lifetime of aqueous foam films formed from monovalent salt solutions up to saturation concentration. Langmuir 2008, 24, 11587-11591, doi:10.1021/la801456j. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Nguyen, A.V.; Miller, J.D. Equilibrium adsorption of surfactants at the gas-liquid interface. In Advances in Polymer Science, 2008; Vol. 218, pp 25-55. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Nguyen, A.V.; Manev, E.D. A novel technique for improving interferometric determination of emulsion film thickness by digital filtration. Journal of Colloid and Interface Science 2007, 306, 449-453, doi:10.1016/j.jcis.2006.11.023. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Nguyen, A.V. Effect of hydrodynamics, interface capillarity and molecular kinetics on wetting and de-wetting on small cylindrical surfaces. Asia-Pacific Journal of Chemical Engineering 2008, 3, 30-35, doi:10.1002/apj.114. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Nguyen, A.V. Effect of sodium dodecyl sulphate and dodecanol mixtures on foam film drainage: Examining influence of surface rheology and intermolecular forces. Colloids Surf. A Physicochem. Eng. Asp. 2007, 293, 229-240, doi:10.1016/j.colsurfa.2006.07.047. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Manev, E.D.; Tsekov, R.; Nguyen, A.V. Effect of ionic surfactants on drainage and equilibrium thickness of emulsion films. Journal of Colloid and Interface Science 2008, 318, 358-364, doi:10.1016/j.jcis.2007.10.053. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Manev, E.D.; Nguyen, A.V. Effect of double-layer repulsion on foam film drainage. Colloids Surf. A Physicochem. Eng. Asp. 2008, 319, 34-42, doi:10.1016/j.colsurfa.2007.07.021. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Qu, X.; Wang, L.; Karakashev, S.I.; Nguyen, A.V. Anomalous thickness variation of the foam films stabilized by weak non-ionic surfactants. Journal of Colloid and Interface Science 2009, 337, 538-547, doi:10.1016/j.jcis.2009.05.038. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
 ðåôåðèðàíè èçäàíèÿ
| Ñòàòèè
| Ozdemir, O.; Taran, E.; Hampton, M.A.; Karakashev, S.I.; Nguyen, A.V. Surface chemistry aspects of coal flotation in bore water. International Journal of Mineral Processing 2009, 92, 177-183, doi:10.1016/j.minpro.2009.04.001 |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Ozdemir, O.; Karakashev, S.I.; Nguyen, A.V.; Miller, J.D. Adsorption and surface tension analysis of concentrated alkali halide brine solutions. Minerals Engineering 2009, 22, 263-271, doi:10.1016/j.mineng.2008.08.001. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Maicoim, A.S.; Dexter, A.F.; Katakdhond, J.A.; Karakashev, S.I.; Nguyen, A.V.; Middelberg, A.P.J. Tuneable control of interfacial rheology and emulsion coalescence. ChemPhysChem 2009, 10, 778-781, doi:10.1002/cphc.200900023. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Nguyen, A.V. The importance of aspect ratio in profile analysis tensiometry. Journal of Colloid and Interface Science 2009, 330, 501-504, doi:10.1016/j.jcis.2008.11.034. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Nguyen, A.V. Meniscus deformation and dynamics of moving contact line between poly(ethylene terephthalate) surface and glycerol-water mixtures. Asia-Pacific Journal of Chemical Engineering 2009, 4, 204-210, doi:10.1002/apj.222. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Nguyen, A.V. Do liquid films rupture due to the so-called hydrophobic force or migration of dissolved gases? Langmuir 2009, 25, 3363-3368, doi:10.1021/la8034648. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Henry, C.L.; Karakashev, S.I.; Nguyen, P.T.; Nguyen, A.V.; Craig, V.S.J. Ion specific electrolyte effects on thin film drainage in nonaqueous solvents propylene carbonate and formamide. Langmuir 2009, 25, 9931-9937, doi:10.1021/la901099g |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Donose, B.C.; Taran, E.; Hampton, M.A.; Karakashev, S.I.; Nguyen, A.V. Carbon nanotube air-bubble interactions studied by atomic force microscopy. Advanced Powder Technology 2009, 20, 257-261, doi:10.1016/j.apt.2009.02.003. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Ivanova, D.S.; Angarska, Z.; Karakashev, S.I.; Manev, E.D. Drainage of foam films stabilized by n-dodecyl-beta-d-maltoside or dodecyl trimethylammonium bromide and their mixtures. Colloids Surf. A Physicochem. Eng. Asp. 2011, 382, 93-101, doi:10.1016/j.colsurfa.2011.01.058. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Vilkova, N.G.; Elaneva, S.I.; Kruglyakov, P.M.; Karakashev, S.I. Foam films from hexylamine stabilized by the silica particles. Mendeleev Communications 2011, 21, 344-345, doi:10.1016/j.mencom.2011.11.018. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Tsekov, R.; Ivanova, D.S.; Slavchov, R.; Radoev, B.; Manev, E.D.; Nguyen, A.V.; Karakashev, S.I. Streaming potential effect on the drainage of thin liquid films stabilized by ionic surfactants. Langmuir 2010, 26, 4703-4708, doi:10.1021/la903593p. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Tsekov, R.; Manev, E.D.; Nguyen, A.V. Elasticity of foam bubbles measured by profile analysis tensiometry. Colloids Surf. A Physicochem. Eng. Asp. 2010, 369, 136-140, doi:10.1016/j.colsurfa.2010.08.008. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Kruglyakov, P.M.; Elaneva, S.I.; Vilkova, N.G.; Karakashev, S.I. Investigation of foam drainage using foam pressure drop technique. Colloids Surf. A Physicochem. Eng. Asp. 2010, 354, 291-297, doi:10.1016/j.colsurfa.2009.06.014. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Tsekov, R.; Ivanova, D.S. Dynamic effects in thin liquid films containing ionic surfactants. Colloids Surf. A Physicochem. Eng. Asp. 2010, 356, 40-45, doi:10.1016/j.colsurfa.2009.12.025. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Ozdemir, O.; Du, H.; Karakashev, S.I.; Nguyen, A.V.; Celik, M.S.; Miller, J.D. Understanding the role of ion interactions in soluble salt flotation with alkylammonium and alkylsulfate collectors. Adv Colloid Interface Sci 2011, 163, 1-22, doi:10.1016/j.cis.2011.01.003. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Tsekov, R. Electro-marangoni effect in thin liquid films. Langmuir 2011, 27, 2265-2270, doi:10.1021/la1044656. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Stockelhuber, K.W.; Tsekov, R. Wetting films on chemically patterned surfaces. Journal of Colloid and Interface Science 2011, 363, 663-667, doi:10.1016/j.jcis.2011.08.002. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Ozdemir, O.; Hampton, M.A.; Nguyen, A.V. Formation and stability of foams stabilized by fine particles with similar size, contact angle and different shapes. Colloids Surf. A Physicochem. Eng. Asp. 2011, 382, 132-138, doi:10.1016/j.colsurfa.2010.09.023. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Ivanova, D.S.; Manev, E.D.; Kirilova, R.; Tsekov, R. An experimental test of the fractal model for drainage of foam films. Journal of Colloid and Interface Science 2011, 353, 206-209, doi:10.1016/j.jcis.2010.09.032. |
12.11.2024 |
|
Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Ivanova, D.S.; Angarska, Z.K.; Manev, E.D.; Tsekov, R.; Radoev, B.; Slavchov, R.; Nguyen, A.V. Comparative validation of the analytical models for the Marangoni effect on foam film drainage. Colloids Surf. A Physicochem. Eng. Asp. 2010, 365, 122-136, doi:10.1016/j.colsurfa.2010.01.054. |
12.11.2024 |
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Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
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Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Ivanova, D.S. Thin liquid film drainage: Ionic vs. non-ionic surfactants. Journal of Colloid and Interface Science 2010, 343, 584-593, doi:10.1016/j.jcis.2009.11.065. |
12.11.2024 |
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Ïðîô. ä-ð Ñòîÿí Èâàíîâ Êàðàêàøåâ
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Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Karakashev, S.I.; Grozev, N.; Diez, I.; Ras, R.H.A.; Tsekov, R. Rheology of silver nanocluster solutions under confinement. Colloids Surf. A Physicochem. Eng. Asp. 2011, 384, 570-573, doi:10.1016/j.colsurfa.2011.05.015. |
12.11.2024 |
