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PUBMED FOR HANDHELDS

Journal Abstract Search


122 related items for PubMed ID: 30037264

  • 1. Many-particle mobility and diffusion tensors for objects in viscous sheets.
    Sokolov Y, Diamant H.
    J Chem Phys; 2018 Jul 21; 149(3):034901. PubMed ID: 30037264
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  • 5. Efficient Brownian Dynamics of rigid colloids in linear flow fields based on the grand mobility matrix.
    Palanisamy D, den Otter WK.
    J Chem Phys; 2018 May 21; 148(19):194112. PubMed ID: 30307211
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  • 7. Orientationally Averaged Version of the Rotne-Prager-Yamakawa Tensor Provides a Fast but Still Accurate Treatment of Hydrodynamic Interactions in Brownian Dynamics Simulations of Biological Macromolecules.
    Tworek JW, Elcock AH.
    J Chem Theory Comput; 2023 Aug 08; 19(15):5099-5111. PubMed ID: 37409946
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  • 8. An Orientationally Averaged Version of the Rotne-Prager-Yamakawa Tensor Provides A Fast But Still Accurate Treatment Of Hydrodynamic Interactions In Brownian Dynamics Simulations Of Biological Macromolecules.
    Tworek JW, Elcock AH.
    bioRxiv; 2023 Apr 25. PubMed ID: 37162930
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  • 10. Generalized Rotne-Prager-Yamakawa approximation for Brownian dynamics in shear flow in bounded, unbounded, and periodic domains.
    Cichocki B, Szymczak P, Żuk PJ.
    J Chem Phys; 2021 Mar 28; 154(12):124905. PubMed ID: 33810690
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  • 11. Brownian dynamics simulations of shear-induced aggregation of charged colloidal particles in the presence of hydrodynamic interactions.
    Lorenzo T, Marco L.
    J Colloid Interface Sci; 2022 Oct 15; 624():637-649. PubMed ID: 35696787
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  • 12. Mobility matrix of a spherical particle translating and rotating in a viscous fluid confined in a spherical cell, and the rate of escape from the cell.
    Felderhof BU, Sellier A.
    J Chem Phys; 2012 Feb 07; 136(5):054703. PubMed ID: 22320755
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  • 13. Rapid sampling of stochastic displacements in Brownian dynamics simulations.
    Fiore AM, Balboa Usabiaga F, Donev A, Swan JW.
    J Chem Phys; 2017 Mar 28; 146(12):124116. PubMed ID: 28388117
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  • 14. Active Brownian filaments with hydrodynamic interactions: conformations and dynamics.
    Martín-Gómez A, Eisenstecken T, Gompper G, Winkler RG.
    Soft Matter; 2019 May 15; 15(19):3957-3969. PubMed ID: 31012481
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  • 15. Influence of hydrodynamic interactions on lane formation in oppositely charged driven colloids.
    Rex M, Löwen H.
    Eur Phys J E Soft Matter; 2008 May 15; 26(1-2):143-50. PubMed ID: 18324352
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  • 16. A Brownian dynamics study on the self-diffusion of charged tracers in dilute polyelectrolyte solutions.
    Zhou T, Chen SB.
    J Chem Phys; 2005 Mar 22; 122(12):124905. PubMed ID: 15836422
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  • 17. Mobility and settling rate of agglomerates of polydisperse nanoparticles.
    Spyrogianni A, Karadima KS, Goudeli E, Mavrantzas VG, Pratsinis SE.
    J Chem Phys; 2018 Feb 14; 148(6):064703. PubMed ID: 29448768
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  • 18. Toward an Accurate Modeling of Hydrodynamic Effects on the Translational and Rotational Dynamics of Biomolecules in Many-Body Systems.
    Długosz M, Antosiewicz JM.
    J Phys Chem B; 2015 Jul 02; 119(26):8425-39. PubMed ID: 26068580
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  • 19. Large scale Brownian dynamics of confined suspensions of rigid particles.
    Sprinkle B, Balboa Usabiaga F, Patankar NA, Donev A.
    J Chem Phys; 2017 Dec 28; 147(24):244103. PubMed ID: 29289140
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  • 20. A molecule-centered method for accelerating the calculation of hydrodynamic interactions in Brownian dynamics simulations containing many flexible biomolecules.
    Elcock AH.
    J Chem Theory Comput; 2013 Jul 09; 9(7):3224-3239. PubMed ID: 23914146
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