All Stories

  1. Electrophoresis of ions and electrolyte conductivity: From bulk to nanochannels
  2. Transport of ions in hydrophobic nanotubes
  3. Instability of particle inertial migration in shear flow
  4. Surface and zeta potentials of charged permeable nanocoatings
  5. Inertial migration of oblate spheroids in a plane channel
  6. Achieving large zeta-potentials with charged porous surfaces
  7. Inertial migration of neutrally buoyant particles in superhydrophobic channels
  8. Ionic equilibria and swelling of soft permeable particles in electrolyte solutions
  9. Electro-osmotic flow in hydrophobic nanochannels
  10. Enhanced slip properties of lubricant-infused grooves
  11. Star polymers as unit cells for coarse-graining cross-linked networks
  12. Inertial focusing of finite-size particles in microchannels
  13. Boundary conditions at the gas sectors of superhydrophobic grooves
  14. Advective superdiffusion in superhydrophobic microchannels
  15. Continuous electroosmotic sorting of particles in grooved microchannels
  16. Electrophoresis of Janus particles: A molecular dynamics simulation study
  17. Manipulation of small particles at solid liquid interface: light driven diffusioosmosis
  18. Electrostatic interactions and electro-osmotic properties of semipermeable surfaces
  19. Probing effective slippage on superhydrophobic stripes by atomic force microscopy
  20. Regimes of wetting transitions on superhydrophobic textures conditioned by energy of receding contact lines
  21. Flows and mixing in channels with misaligned superhydrophobic walls
  22. Electrohydrodynamics Near Hydrophobic Surfaces
  23. Principles of transverse flow fractionation of microparticles in superhydrophobic channels
  24. Application of Tunable-Slip Boundary Conditions in Particle-Based Simulations
  25. Gas cushion model and hydrodynamic boundary conditions for superhydrophobic textures
  26. Contact angle hysteresis on superhydrophobic stripes
  27. Disjoining pressure of an electrolyte film confined between semipermeable membranes
  28. Lattice-Boltzmann simulations of the drag force on a sphere approaching a superhydrophobic striped plane
  29. Effective slippage on superhydrophobic trapezoidal grooves
  30. Effective slip-length tensor for a flow over weakly slipping stripes
  31. Wetting, Roughness and Hydrodynamic Slip
  32. Flow past superhydrophobic surfaces with cosine variation in local slip length
  33. Effective hydrodynamic boundary conditions for microtextured surfaces
  34. Flow in channels with superhydrophobic trapezoidal textures
  35. Electrostatic interaction of heterogeneously charged surfaces with semipermeable membranes
  36. Superhydrophobic Textures for Microfluidics
  37. Effective slip boundary conditions for arbitrary one-dimensional surfaces
  38. Anisotropic flow in striped superhydrophobic channels
  39. Tensorial slip of superhydrophobic channels
  40. Electrostatic interaction of neutral semi-permeable membranes
  41. Interactions of neutral semipermeable shells in asymmetric electrolyte solutions
  42. Drag force on a sphere moving toward an anisotropic superhydrophobic plane
  43. Electro-osmosis on Anisotropic Superhydrophobic Surfaces
  44. Wetting, roughness and flow boundary conditions
  45. Thermal softening of superswollen polyelectrolyte microcapsules
  46. Transverse flow in thin superhydrophobic channels
  47. THF-induced stiffening of polyelectrolyte/phosphorus dendrimer multilayer microcapsules
  48. Random-Roughness Hydrodynamic Boundary Conditions
  49. Effective slip in pressure-driven flow past super-hydrophobic stripes
  50. Erratum: Effective Slip over Superhydrophobic Surfaces in Thin Channels [Phys. Rev. Lett. 102 , 026001 (2009)]
  51. Anisotropic electro-osmotic flow over super-hydrophobic surfaces
  52. Hydrodynamic interaction with super-hydrophobic surfaces
  53. Direct Measurements of Hydrophobic Slippage Using Double-Focus Fluorescence Cross-Correlation
  54. Effective Slip over Superhydrophobic Surfaces in Thin Channels
  55. Methods for analysis of the AFM images of thin films of block copolymers
  56. Osmotic pressure acting on a semipermeable shell immersed in a solution of polyions
  57. Studying intermolecular processes in thin surface layers with microcantilever transducers. Formation of protein fibrils on a solid support
  58. Tensorial hydrodynamic slip
  59. Ripples in a wetting film formed by a moving meniscus
  60. Dendrimer-encapsulated gold nanoparticles as building blocks for multilayer microshells
  61. Dynamics and stability of dispersions of polyelectrolyte-filled multilayer microcapsules
  62. The wimple: A rippled deformation of a wetting film during its drainage
  63. Charged Semi-Permeable Shell with Encapsulated Polyions: Concentration Profile, Surface Potential, and Electrostatic Pressure
  64. Electro-osmotic equilibria for a semipermeable shell filled with a solution of polyions
  65. Self-Assembled Monolayers on Mercury Probed in a Modified Surface Force Apparatus
  66. Electrostatic Stretching of a Charged Vesicle
  67. MECHANICAL BEHAVIOR AND CHARACTERIZATION OF MICROCAPSULES
  68. Effect of Dendrimer Generation on the Assembly and Mechanical Properties of DNA/Phosphorus Dendrimer Multilayer Microcapsules
  69. Stability of toroid and rodlike globular structures of a single stiff-chain macromolecule for different bending potentials
  70. Surface roughness and hydrodynamic boundary conditions
  71. Spatial distribution of polyelectrolyte and counterions in nanocapsules: A computer simulation study
  72. Polyelectrolyte assembling for protein microencapsulation
  73. Hydrodynamic resistance of close-approached slip surfaces with a nanoasperity or an entrapped nanobubble
  74. A Qualitative Theory of Wimples in Wetting Films
  75. Superswollen Ultrasoft Polyelectrolyte Microcapsules
  76. The “Wimple”:  Rippled Deformation of a Fluid Drop Caused by Hydrodynamic and Surface Forces during Thin Film Drainage
  77. Interaction and Adhesion Properties of Polyelectrolyte Multilayers
  78. Assembly and Mechanical Properties of Phosphorus Dendrimer/Polyelectrolyte Multilayer Microcapsules
  79. Effect of Organic Solvent on the Permeability and Stiffness of Polyelectrolyte Multilayer Microcapsules
  80. Multilayer DNA/Poly(allylamine hydrochloride) Microcapsules:  Assembly and Mechanical Properties
  81. Salt softening of polyelectrolyte multilayer microcapsules
  82. Mechanical Properties of Polyelectrolyte-Filled Multilayer Microcapsules Studied by Atomic Force and Confocal Microscopy
  83. Investigation of Molecular Weight and Aging Effects on the Stiffness of Polyelectrolyte Multilayer Microcapsules
  84. Capillary bridging and long-range attractive forces in a mean-field approach
  85. Mechanical properties of polyelectrolyte multilayer microcapsules
  86. pH-Controlled Swelling of Polyelectrolyte Multilayer Microcapsules
  87. Effect of pH and Salt on the Stiffness of Polyelectrolyte Multilayer Microcapsules
  88. Comparative Analysis of Hollow and Filled Polyelectrolyte Microcapsules Templated on Melamine Formaldehyde and Carbonate Cores
  89. Elasticity of polyelectrolyte multilayer microcapsules
  90. Young's Modulus of Polyelectrolyte Multilayers from Microcapsule Swelling
  91. Boundary slip as a result of a prewetting transition
  92. Interaction of elastic bodies via surface forces
  93. Flow profile near a wall measured by double-focus fluorescence cross-correlation
  94. Mechanical Properties of Polyelectrolyte Microcapsules Filled with a Neutral Polymer
  95. Deformation Properties of Nonadhesive Polyelectrolyte Microcapsules Studied with the Atomic Force Microscope
  96. Dynamic Effects on Force Measurements. 2. Lubrication and the Atomic Force Microscope
  97. Interaction of Elastic Bodies via Surface Forces. 1. Power-Law Attraction
  98. Forces between polystyrene surfaces in water–electrolyte solutions: Long-range attraction of two types?
  99. Dynamic effects on force measurements. I. Viscous drag on the atomic force microscope cantilever
  100. Attractive Forces between Surfaces:  What Can and Cannot Be Learned from a Jump-In Study with the Surface Forces Apparatus?
  101. Analysis of plastic deformation in atomic force microscopy: Application to ice
  102. Hydrodynamic slippage inferred from thin film drainage measurements in a solution of nonadsorbing polymer
  103. Interaction Forces between Hydrophobic Surfaces. Attractive Jump as an Indication of Formation of “Stable” Submicrocavities
  104. Elastohydrodynamic Collision of Two Spheres Allowing Slip on Their Surfaces
  105. Contact angles on hydrophobic microparticles at water–air and water–hexadecane interfaces
  106. Slippage of water over hydrophobic surfaces
  107. Implications of Hydrophobic Slippage for the Dynamic Measurements of Hydrophobic Forces
  108. Hydrophobicity, specific ion adsorption and reactivity
  109. Effect of Salts and Dissolved Gas on Optical Cavitation near Hydrophobic and Hydrophilic Surfaces
  110. Possible implications of hydrophobic slippage on the dynamic measurements of hydrophobic forces
  111. Existence of charged submicrobubble clusters in polar liquids as revealed by correlation between optical cavitation and electrical conductivity
  112. Flow of a liquid in a nonuniformly hydrophobized capillary
  113. Hydrodynamic Interaction of Curved Bodies Allowing Slip on Their Surfaces
  114. Submicrocavity Structure of Water between Hydrophobic and Hydrophilic Walls as Revealed by Optical Cavitation
  115. Drainage of a Thin Liquid Film Confined between Hydrophobic Surfaces
  116. Coagulation of Hydrophobic and Hydrophilic Solids under Dynamic Conditions
  117. Obituary. Boris Vladimirovich Derjaguin
  118. Boris Vladimirovich Derjaguin (1902-1994)
  119. On the attachment of hydrophobic particles to a bubble on their collision