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Journal Abstract Search

231 related items for PubMed ID: 24111685

  • 1.
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  • 3. Numerical study on the adhesion and reentrainment of nondeformable particles on surfaces: the role of surface roughness and electrostatic forces.
    Henry C, Minier JP, Lefèvre G.
    Langmuir; 2012 Jan 10; 28(1):438-52. PubMed ID: 22107171
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  • 4. Yield Stress of Concentrated Zirconia Suspensions: Correlation with Particle Interactions.
    Megías-Alguacil D, Durán JD, Delgado AV.
    J Colloid Interface Sci; 2000 Nov 01; 231(1):74-83. PubMed ID: 11082250
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  • 6. Numerical study on the deposition rate of hematite particle on polypropylene walls: role of surface roughness.
    Henry C, Minier JP, Lefèvre G, Hurisse O.
    Langmuir; 2011 Apr 19; 27(8):4603-12. PubMed ID: 21405065
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  • 7. Investigating forces between charged particles in the presence of oppositely charged polyelectrolytes with the multi-particle colloidal probe technique.
    Borkovec M, Szilagyi I, Popa I, Finessi M, Sinha P, Maroni P, Papastavrou G.
    Adv Colloid Interface Sci; 2012 Nov 01; 179-182():85-98. PubMed ID: 22795487
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  • 9. Computer simulation on the collision-sticking dynamics of two colloidal particles in an optical trap.
    Xu S, Sun Z.
    J Chem Phys; 2007 Apr 14; 126(14):144903. PubMed ID: 17444739
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  • 10. Direct measurements of forces between different charged colloidal particles and their prediction by the theory of Derjaguin, Landau, Verwey, and Overbeek (DLVO).
    Montes Ruiz-Cabello FJ, Maroni P, Borkovec M.
    J Chem Phys; 2013 Jun 21; 138(23):234705. PubMed ID: 23802974
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  • 11. Experimental and theoretical studies of the colloidal stability of nanoparticles-a general interpretation based on stability maps.
    Segets D, Marczak R, Schäfer S, Paula C, Gnichwitz JF, Hirsch A, Peukert W.
    ACS Nano; 2011 Jun 28; 5(6):4658-69. PubMed ID: 21545143
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  • 12. Polyelectrolyte adsorption, interparticle forces, and colloidal aggregation.
    Szilagyi I, Trefalt G, Tiraferri A, Maroni P, Borkovec M.
    Soft Matter; 2014 Apr 21; 10(15):2479-502. PubMed ID: 24647366
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  • 13. Extension of the hard-sphere particle-wall collision model to account for particle deposition.
    Kosinski P, Hoffmann AC.
    Phys Rev E Stat Nonlin Soft Matter Phys; 2009 Jun 21; 79(6 Pt 1):061302. PubMed ID: 19658496
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  • 14. Stability of soft colloidal particles in a salt-free medium.
    Liu BT, Hsu JP.
    Langmuir; 2009 Aug 18; 25(16):9045-50. PubMed ID: 19459685
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  • 15. Resolving the coupled effects of hydrodynamics and DLVO forces on colloid attachment in porous media.
    Torkzaban S, Bradford SA, Walker SL.
    Langmuir; 2007 Sep 11; 23(19):9652-60. PubMed ID: 17705511
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  • 16. Microflotation Suppression and Enhancement Caused by Particle/Bubble Electrostatic Interaction.
    Mishchuk NA, Koopal LK, Dukhin SS.
    J Colloid Interface Sci; 2001 May 15; 237(2):208-223. PubMed ID: 11334536
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  • 17. Fundamental mechanisms for tablet dissolution: simulation of particle deaggregation via Brownian dynamics.
    Kaunisto E, Rasmuson A, Bergenholtz J, Remmelgas J, Lindfors L, Folestad S.
    J Pharm Sci; 2013 May 15; 102(5):1569-77. PubMed ID: 23508875
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  • 18. Collision rate coefficient for charged dust grains in the presence of linear shear.
    Yang H, Hogan CJ.
    Phys Rev E; 2017 Sep 15; 96(3-1):032911. PubMed ID: 29347041
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  • 19. Early (pre-DLVO) studies of particle aggregation.
    Vincent B.
    Adv Colloid Interface Sci; 2012 Jan 15; 170(1-2):56-67. PubMed ID: 22257683
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  • 20. The bridging force between colloidal particles in a polyelectrolyte solution.
    Huang H, Ruckenstein E.
    Langmuir; 2012 Nov 27; 28(47):16300-5. PubMed ID: 23134342
    [Abstract] [Full Text] [Related]

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