English

Capillarity-Driven Flows at the Continuum Limit

Soft Condensed Matter 2015-10-05 v1

Abstract

We experimentally investigate the dynamics of capillary-driven flows at the nanoscale, using an original platform that combines nanoscale pores and microfluidic features. Our results show a coherent picture across multiple experiments including imbibition, poroelastic transient flows, and a drying-based method that we introduce. In particular, we exploit extreme drying stresses - up to 100 MPa of tension - to drive nanoflows and provide quantitative tests of continuum theories of fluid mechanics and thermodynamics (e.g. Kelvin-Laplace equation) across an unprecedented range. We isolate the breakdown of continuum as a negative slip length of molecular dimension.

Keywords

Cite

@article{arxiv.1510.00411,
  title  = {Capillarity-Driven Flows at the Continuum Limit},
  author = {Olivier Vincent and Alexandre Szenicer and Abraham D. Stroock},
  journal= {arXiv preprint arXiv:1510.00411},
  year   = {2015}
}

Comments

5 pages; 4 figures

R2 v1 2026-06-22T11:10:42.458Z