Glassy Dynamics as a Predictive Framework for Lipid Exchange Across Membranes

Wang, Kai; Villanueva, Martín Eduardo; Caporaletti, Federico; White, Ronald P.; Lipson, Jane E. G.; Napolitano, Simone; Losada‐Pérez, Patricia

doi:10.1002/smll.202512844

articleSmallJan 21, 2026GREEN OA

Glassy Dynamics as a Predictive Framework for Lipid Exchange Across Membranes

KWKai Wang MEMartín Eduardo Villanueva FCFederico Caporaletti RPRonald P. White JEJane E. G. Lipson

Université Libre de Bruxelles · Dartmouth College

PubMed

Indexed incrossrefpubmed

Abstract

Lipid exchange between membranes is fundamental to biological function and technological applications, from drug delivery and vesicle trafficking to the design of biomimetic materials. Yet, quantitative prediction of both activation energies and timescales has remained elusive due to complex energy landscapes. Here, we present a thermodynamic-kinetic framework inspired by glassy dynamics to address this challenge. Using a single, experimentally accessible parameter-the thermal expansion coefficient of lipid vesicles-we apply the Collective Small Displacements (CSD) model to predict activation energies and transfer timescales without adjustable parameters. Our label-free quartz crystal microbalance experiments…

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Topics & keywords

Topics

Keywords

Quartz crystal microbalance
Membrane
Lipid bilayer
Kinetics
Soft matter
Amorphous solid
Work (physics)
Relaxation (psychology)

UN Sustainable Development Goals

Affordable and clean energy

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