Zigzagging diffusion and nonstandard transport in particle-laden nanopores under extreme confinement
Baer A, Malgaretti P, Höllring K, Harting J, Smith AS (2025)
Publication Type: Journal article
Publication year: 2025
Journal
Book Volume: 7
Article Number: 043251
DOI: 10.1103/jjrg-b6rg
Abstract
Understanding transport subject to molecular-scale confinement is key to advancing nanofluidics, yet classical hydrodynamic laws often fail at these scales. Here, we study a model system: transport of toluene as a solvent and small fullerenes as model particles confined within alumina slit nanopores using molecular dynamics simulations. We find that toluene organizes into discrete layers whose commensurability with the pore width leads to a striking, nonmonotonic, zigzag dependence of transport coefficients on confinement. This layering drives oscillations not only in solvent diffusivity but also in flow velocity and permeability under pressure-driven conditions, breaking the expected scaling relations between diffusion, viscosity, and flow. Surprisingly, introducing a nanoparticle does not wash out these effects - although the fullerene perturbs local layering, the nanoparticle diffusivity retains a zigzag dependence on pore width. Our results demonstrate how structural commensurability and interfacial effects dominate transport in nanoconfined liquids and lead to important deviations from continuum expectations. These findings establish a microscopic basis for size-dependent transport in nanopores and highlight the need for beyond-hydrodynamic models in confined soft matter systems.
Authors with CRIS profile
Andreas Baer
Physics Underlying Life Science (PULS)
Kevin Höllring
Sonderforschungsbereich 1719: ChemPrint -- Gedruckte Halbleiter der nächsten Generation: Ingenieurskunst auf atomarer Ebene mittels molekularer Oberflächenchemie (ChemPrint)
Jens Harting
Professur für Multiskalen-Modellierung für kontrollierte Filmbildung (HIERN)
Ana-Suncana Smith
Physics Underlying Life Science (PULS)
Involved external institutions
Germany (DE)How to cite
APA:
Baer, A., Malgaretti, P., Höllring, K., Harting, J., & Smith, A.-S. (2025). Zigzagging diffusion and nonstandard transport in particle-laden nanopores under extreme confinement. Physical Review Research, 7. https://doi.org/10.1103/jjrg-b6rg
MLA:
Baer, Andreas, et al. "Zigzagging diffusion and nonstandard transport in particle-laden nanopores under extreme confinement." Physical Review Research 7 (2025).
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