Detection of early cluster formation in soft matter: an entropic imprint

TL;DR

This paper reveals that the transition from a homogeneous fluid to a cluster fluid in soft matter systems is discontinuous in entropy, challenging the common assumption of a continuous microphase separation, supported by theoretical and simulation evidence.

Contribution

It demonstrates that entropy exhibits a discontinuous change at the cluster formation threshold, providing a new thermodynamic signature for phase transition in soft matter.

Findings

Entropy shows a discontinuous behavior at the transition.

Theoretical predictions align with Monte Carlo simulations.

Highlights importance of accurate thermodynamic characterization.

Abstract

We study model protein solutions and colloidal suspensions in the temperature range whereupon the nature of the system changes from a homogeneous fluid to a "cluster fluid". It is commonly assumed - as deduced by the behavior of the structural correlations - that this microphase separation sets as a continuous process. We challenge such assumption and demonstrate that the entropy shows a discontinuous behavior across a well-defined temperature threshold, providing a neat signature of the modifications occurring in the fluid. All predictions, obtained in the framework of a refined theory of the liquid state, are systematically assessed against extensive Monte Carlo simulations. We emphasize the broad generality of our conclusions, and the importance of accurate theoretical treatments to characterize the thermodynamic properties of soft materials.