Issue 47, 2024

Breaking the Brownian barrier: models and manifestations of molecular diffusion in complex fluids

Abstract

Over a century ago, Einstein formulated a precise mathematical model for describing Brownian motion. While this model adequately explains the diffusion of micron-sized particles in fluids, its limitations become apparent when applied to molecular self-diffusion in fluids. The foundational principles of Gaussianity and Markovianity, central to the Brownian diffusion paradigm, are insufficient for describing molecular diffusion, particularly in complex fluids characterized by intricate intermolecular interactions and hindered relaxation processes. This perspective delves into the nuanced behavior observed in diverse complex fluids, including molecular self-assembly systems, deep eutectic solvents, and ionic liquids, with a specific focus on modeling self-diffusion within these media. We explore the possibility of extending diffusion models to incorporate non-Gaussian and non-Markovian effects by augmenting the Brownian model using non-local diffusion equations. Furthermore, we validate the applicability of these models by utilizing them to describe results from quasielastic neutron scattering and MD simulations.

Graphical abstract: Breaking the Brownian barrier: models and manifestations of molecular diffusion in complex fluids

Article information

Article type
Perspective
Submitted
01 May 2024
Accepted
11 Nov 2024
First published
12 Nov 2024

Phys. Chem. Chem. Phys., 2024,26, 29227-29250

Breaking the Brownian barrier: models and manifestations of molecular diffusion in complex fluids

H. Srinivasan, V. K. Sharma and S. Mitra, Phys. Chem. Chem. Phys., 2024, 26, 29227 DOI: 10.1039/D4CP01813C

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