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Shape-free theory for the self-assembly kinetics in macromolecular systems

Self-assembly kinetics is usually described by approaches which assume that the shape of the aggregates has a definite form (e.g., spherical, cylindrical, cubic, etc), however that is unlikely to be the case in many finite-sized macromolecular and colloidal systems. Here we consider a simple aggregation model which displays a first-order phase transition in order to illustrate a rate theory based on microcanonical analysis that allows one to obtain a shape-free description of its self-assembly kinetics. Stochastic simulations are performed to validate our approach and demonstrate how the equilibrium thermostatistical properties of the system can be related to the temperature-dependent rate constants. As a model-independent kinetic approach, it may provide experimentalists a reliable method to reconstruct free-energy profiles and microcanonical entropies from kinetic data.

preprint2021arXivOpen access
L. F. TrugilhoL. G. Rizzi
cond-mat.stat-mechcond-mat.mes-hallcond-mat.softphysics.chem-ph
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L. F. TrugilhoL. G. Rizzi

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