Search results for "Dynamic stability"

showing 2 items of 12 documents

Controlling stability and transport of magnetic microswimmers by an external field

2019

We investigate the hydrodynamic stability and transport of magnetic microswimmers in an external field using a kinetic theory framework. Combining linear stability analysis and nonlinear 3D continuum simulations, we show that for sufficiently large activity and magnetic field strengths, a homogeneous polar steady state is unstable for both puller and pusher swimmers. This instability is caused by the amplification of anisotropic hydrodynamic interactions due to the external alignment and leads to a partial depolarization and a reduction of the average transport speed of the swimmers in the field direction. Notably, at higher field strengths a reentrant hydrodynamic stability emerges where t…

PhysicsPhysics::Biological PhysicsHydrodynamic stabilitySteady stateStatistical Mechanics (cond-mat.stat-mech)Field (physics)FOS: Physical sciencesGeneral Physics and AstronomyPattern Formation and Solitons (nlin.PS)MechanicsCondensed Matter - Soft Condensed MatterNonlinear Sciences - Pattern Formation and Solitons01 natural sciencesInstability010305 fluids & plasmasMagnetic fieldNonlinear system0103 physical sciencesSoft Condensed Matter (cond-mat.soft)Polar010306 general physicsAnisotropyCondensed Matter - Statistical MechanicsEPL (Europhysics Letters)
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Influence of bacterial physiology on processing of selenite, biogenesis of nanomaterials and their thermodynamic stability

2019

We explored how Ochrobactrum sp. MPV1 can convert up to 2.5 mM selenite within 120 h, surviving the challenge posed by high oxyanion concentrations. The data show that thiol-based biotic chemical reaction(s) occur upon bacterial exposure to low selenite concentrations, whereas enzymatic systems account for oxyanion removal when 2 mM oxyanion is exceeded. The selenite bioprocessing produces selenium nanomaterials, whose size and morphology depend on the bacterial physiology. Selenium nanoparticles were always produced by MPV1 cells, featuring an average diameter ranging between 90 and 140 nm, which we conclude constitutes the thermodynamic stability range for these nanostructures. Alternativ…

biogenic nanomaterials; selenium nanomaterials; selenite; selenium nanoparticles; selenium nanorods; Ochrobactrum; thermodynamic stability; electrosteric stabilizationPharmaceutical ScienceNanoparticlePhysiologyOxyanion02 engineering and technologySelenious AcidAnalytical ChemistryNanomaterialschemistry.chemical_compoundNanoparticleDrug Discoverychemistry.chemical_classification0303 health sciencesNanotubeselectrosteric stabilization021001 nanoscience & nanotechnologySelenium nanomaterialSelenium nanoparticleChemistry (miscellaneous)Molecular MedicineBiogenic nanomaterialNanorod0210 nano-technologybiogenic nanomaterialsselenium nanomaterialschemistry.chemical_elementOchrobactrumArticlelcsh:QD241-44103 medical and health scienceslcsh:Organic chemistryAmphiphileselenium nanoparticlesPhysical and Theoretical ChemistryParticle SizeSelenium nanorod030304 developmental biologyBiomoleculeOrganic ChemistryNanotube<i>Ochrobactrum</i>chemistry13. Climate actionNanoparticlesthermodynamic stabilityChemical stabilityseleniteselenium nanorodsSelenium
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