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Crossover from anomalous to normal diffusion in porous media

Aarão Reis, F D A ; di Caprio, Dung

Physical review. E, Statistical, nonlinear, and soft matter physics, 2014-06, Vol.89 (6), p.062126-062126, Article 062126

United States: American Physical Society

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  • Título:
    Crossover from anomalous to normal diffusion in porous media
  • Autor: Aarão Reis, F D A ; di Caprio, Dung
  • Assuntos: Chemical Sciences ; Condensed Matter ; Diffusion ; Models, Theoretical ; or physical chemistry ; Physics ; Porosity ; Theoretical and
  • É parte de: Physical review. E, Statistical, nonlinear, and soft matter physics, 2014-06, Vol.89 (6), p.062126-062126, Article 062126
  • Notas: ObjectType-Article-1
    SourceType-Scholarly Journals-1
    ObjectType-Feature-2
    content type line 23
  • Descrição: Random walks (RW) of particles adsorbed in the internal walls of porous deposits produced by ballistic-type growth models are studied. The particles start at the external surface of the deposits and enter their pores in order to simulate an external flux of a species towards a porous solid. For short times, the walker concentration decays as a stretched exponential of the depth z, but a crossover to long-time normal diffusion is observed in most samples. The anomalous concentration profile remains at long times in very porous solids if the walker steps are restricted to nearest neighbors and is accompanied with subdiffusion features. These findings are correlated with a decay of the explored area with z. The study of RW of tracer particles left at the internal part of the solid rules out an interpretation by diffusion equations with position-dependent coefficients. A model of RW in a tube of decreasing cross section explains those results by showing long crossovers from an effective subdiffusion regime to an asymptotic normal diffusion. The crossover position and density are analytically calculated for a tube with area decreasing exponentially with z and show good agreement with numerical data. The anomalous decay of the concentration profile is interpreted as a templating effect of the tube shape on the total number of diffusing particles at each depth, while the volumetric concentration in the actually explored porous region may not have significant decay. These results may explain the anomalous diffusion of metal atoms in porous deposits observed in recent works. They also confirm the difficulty in interpreting experimental or computational data on anomalous transport reported in recent works, particularly if only the concentration profiles are measured.
  • Editor: United States: American Physical Society
  • Idioma: Inglês
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