about
Activity mediated phase separation: Can we understand phase behavior of the nonequilibrium problem from an equilibrium approach?Crystallization and flow in active patch systems.Spatiotemporal order and emergent edge currents in active spinner materials.Surface roughness stabilizes the clustering of self-propelled triangles.Directional transport of colloids inside a bath of self-propelling walkers.Hydrodynamic instabilities in active cholesteric liquid crystals.Critical mingling and universal correlations in model binary active liquids.Effective temperature concept evaluated in an active colloid mixture.Order-disorder transition in active nematic: A lattice model study.Collective migration under hydrodynamic interactions: a computational approach.Phase separation and coexistence of hydrodynamically interacting microswimmers.The behavior of active diffusiophoretic suspensions: An accelerated Laplacian dynamics study.Statistical mechanics of transport processes in active fluids: Equations of hydrodynamics.Collective transport for active matter run-and-tumble disk systems on a traveling-wave substrate.The efficiency of self-phoretic propulsion mechanisms with surface reaction heterogeneity.Exploiting non-equilibrium phase separation for self-assembly.Active Brownian equation of state: metastability and phase coexistence.Fluctuation spectra and force generation in nonequilibrium systems.Tunable emergent structures and traveling waves in mixtures of passive and contact-triggered-active particles.Mode coupling theory for nonequilibrium glassy dynamics of thermal self-propelled particles.Active colloids with collective mobility status and research opportunities.Dynamic phases of active matter systems with quenched disorder.Gaussian theory for spatially distributed self-propelled particles.Effective interactions between inclusions in an active bath.Estimation of the critical behavior in an active colloidal system with Vicsek-like interactions.Forces in inhomogeneous open active-particle systems.Generalized Archimedes' principle in active fluids.Experimental investigation of mesoscopic heterogeneous motion of laser-activated self-propelling Janus particles in suspension.Multicellular Self-Organization of P. aeruginosa due to Interactions with Secreted Trails.Collective Behavior of Chiral Active Matter: Pattern Formation and Enhanced Flocking.Wetting Transitions Displayed by Persistent Active Particles.Noise and diffusion of a vibrated self-propelled granular particle.Immotile Active Matter: Activity from Death and Reproduction.Van't Hoff's law for active suspensions: the role of the solvent chemical potential.Pressure and flow of exponentially self-correlated active particles.Antiswarming: Structure and dynamics of repulsive chemically active particles.Brownian systems with spatially inhomogeneous activity.Effective equilibrium states in mixtures of active particles driven by colored noise.Three-body correlations and conditional forces in suspensions of active hard disks.Memory effects in active particles with exponentially correlated propulsion.
P2860
Q30276975-C8413190-EB51-4C65-B37C-F6832D4308A0Q36250965-23C21F66-0955-400C-BC20-8549FD08658FQ37469311-43616C9D-93DD-44A5-AD6B-424B9607A3E0Q38805418-0CB07918-5AE7-44C2-AE47-6F3833307024Q38809517-1F4D4E36-1DDE-49DC-B0CE-ADBEDCF40D70Q38827450-D801DB0A-E322-41EF-9E08-A8A905DA97B3Q40984908-C05240C3-054F-4526-8B0B-143DA24CD8AFQ41148244-D2A9C93F-FFD3-461A-B2B8-235D9ACAA345Q41204244-15737C57-B443-43F5-9775-4F1330EDD6F5Q42342832-43D54754-8274-4279-9651-097A10408CFFQ44838588-D4B75F3F-054B-4AEC-B3F3-C4F3296D675BQ44975503-7BD9592A-07DD-40E7-BC36-1A6C3ED280E5Q46049502-F1934393-26BC-4920-AAC0-69DE47D62A3CQ46416816-1AC7DDCC-91CB-4B57-BA96-44BEFF2D9C42Q46539180-9D57E74A-9674-4C85-93C2-BC1E34F87DFEQ46625018-1D661EF5-9211-4193-B635-12B8459E30A6Q47618794-E1C1FF79-207D-400A-8FF6-9C6D1F4C0189Q47724774-28BEDFA8-6FAF-42F2-8CC5-8EAD9B2B93B7Q47730599-BACBD529-5CEA-470F-9053-055C6F1A966CQ47816954-909E44C4-8423-4CE9-BB03-C9A835C89B42Q47859604-DB7739E7-550A-4770-80A7-5B89C607B57AQ47884117-DFEB10B2-81C6-4C1E-8B4D-338B5759EC94Q48012293-D9E4491D-F7A4-4B46-A46D-AE4631CA9612Q48048276-D9E4254C-8DFD-4C1C-A37A-73BBFF8C31E7Q48206712-98165137-6F92-4EDA-96A7-5F9585034331Q48503231-D90828D2-2C43-4397-A512-DDE8FCE914E0Q48503247-C764E74D-5504-4DB7-9209-7EC981B3749EQ48506756-B51F6278-A685-443B-AAD1-9C6C5C1D8447Q48940117-2E6FA171-BEFA-44F9-9541-4AF39816616EQ49825967-5ABAE971-6E66-4856-8A98-3C6224097F06Q49827052-46232E75-18B0-4863-BC2F-051BF9693F84Q49893622-D8CF566B-CDDE-4E18-854D-9B652A47D95AQ49921754-5833A229-1780-4375-8ABA-4C55518CFD19Q49922488-012D2910-D46F-49C9-B12B-4A16221607E9Q49957977-FF4C7E95-5CA1-4A8A-A4C1-7216BCDE97F7Q49960351-FA15174B-F31A-44F9-97AC-7A28BB1BF094Q49962719-68460CE6-3105-48CE-8A39-39736526B957Q49965866-EBE9A94C-E5C8-41AA-AEB0-DC100C475BC0Q49966049-18EC86F2-AB17-4691-946F-D88BC3E8F2EFQ49966140-296F779C-DF48-4AEB-9E38-CB1867E3F08D
P2860
description
wetenschappelijk artikel
@nl
наукова стаття, опублікована в березні 2015
@uk
name
Motility-Induced Phase Separation
@en
Motility-Induced Phase Separation
@nl
type
label
Motility-Induced Phase Separation
@en
Motility-Induced Phase Separation
@nl
prefLabel
Motility-Induced Phase Separation
@en
Motility-Induced Phase Separation
@nl
P1476
Motility-Induced Phase Separation
@en
P2093
Julien Tailleur
Michael E. Cates
P304
P356
10.1146/ANNUREV-CONMATPHYS-031214-014710
P407
P577
2015-03-01T00:00:00Z