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  1. pubs.rsc.org

    Oct 23, 2024Long range signature of liquid's inertia in nanoscale drainage flows ... Long range signature of liquid's inertia in nanoscale drainage flows N. Bigan, M. Lizée, M. Pascual, A. Niguès, L. Bocquet and A. Siria, Soft Matter, 2024, 20, 8804 DOI: 10.1039/D4SM01006J . To request permission to ...
    • Long range signature of liquid's inertia in nanoscale drainage flows ...

      Long range signature of liquid's inertia in nanoscale drainage flows: Supplementary materials Nathan Bigan1,2, Mathieu Lizée1,Marc Pascual2, Antoine Niguès1, Lydéric Bocquet1, Alessandro Siria1 1Laboratoire de Physique de l'Ecole Normale Supérieure, ENS, Université PSL, CNRS, Sorbonne Université, Université de Paris, 75005 Paris, France

  2. pubmed.ncbi.nlm.nih.gov

    In confinement, liquid flows are governed by a complex interplay of molecular, viscous and elastic forces. When a fluid is confined between two approaching surfaces, a transition is generally observed from a long range dynamical response dominated by viscous forces in the fluid to a short range elas …
  3. Long range signature of liquid's inertia in nanoscale drainage flows: Supplementary materials Nathan Bigan1,2, Mathieu Lizée1,Marc Pascual2, Antoine Niguès1, Lydéric Bocquet1, Alessandro Siria1 1Laboratoire de Physique de l'Ecole Normale Supérieure, ENS, Université PSL, CNRS, Sorbonne Université, Université de Paris, 75005 Paris, France
  4. pubmed.ncbi.nlm.nih.gov

    This avenue prompts us to reconsider nanoscale hydrodynamic flows under the perspective of interacting excitations, akin to condensed matter frameworks. Here we show, using a combination of many-body theory and molecular simulations, that the flow of a liquid can induce the flow of another liquid behind a separating wall, at odds with the ...
  5. pubs.aip.org

    In recent years, the influence of channel size on nanoscale liquid flows has been investigated. 23-26 Although many interesting flow fashions have been observed, the findings about the role of channel size and the validity of the NS equations for nanoscale flows seem to be controversial. Some work concludes that the flow motion can be predicted by the NS equations even when the channel size ...
  6. pubs.acs.org

    Jan 31, 2023MD simulation of water and heptane flows in liquid layers of 12 nm in periodic boundary conditions. Water is represented in blue and heptane in yellow. Some water and heptane molecules are respectively marked in green and red to allow the visualization of the Poiseuille flows . MD simulation of a water flow in a 8 nm solid heptane channel.
  7. ouci.dntb.gov.ua

    In confinement, liquid flows are governed by a complex interplay of molecular, viscous and elastic forces. List of references Nanoscale Liquid Interfaces: Wetting, Patterning and Force Microscopy at the Molecular Scale , ed. T. Ondarcuhu and J. P. Aime , Jenny Stanford Publishing , New York , 1st edn, 2013 , p. 780
  8. Abstract. In confinement, liquid flows are governed by a complex interplay of molecular, viscous and elastic forces. When a fluid is confined between two approaching surfaces, a transition is generally observed from a long range dynamical response dominated by viscous forces in the fluid to a short range elasto-hydrodynamic response due to the elastic deformation of the solid materials.
  9. muckrack.com

    Long range signature of liquid's inertia in nanoscale drainage flows. Aug 22, ... Long range signature of liquid's inertia in nanoscale drainage flows In confinement, liquid flows are governed by a complex interplay of molecular, viscous and elastic forces. When a fluid is confined between two approaching surfaces, a transition is generally ...

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