Dynamic Landau theory for supramolecular self-assembly

Publication date

2015-09-29

Authors

Tiwari, Nitin S.
Merkus, Koen
Van Der Schoot, PaulISNI 0000000389454246

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Document Type

Article
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Abstract

Although pathway-specific kinetic theories are fundamentally important to describe and understand reversible polymerisation kinetics, they come in principle at a cost of having a large number of system-specific parameters. Here, we construct a dynamical Landau theory to describe the kinetics of activated linear supramolecular self-assembly, which drastically reduces the number of parameters and still describes most of the interesting and generic behavior of the system in hand. This phenomenological approach hinges on the fact that if nucleated, the polymerisation transition resembles a phase transition. We are able to describe hysteresis, overshooting, undershooting and the existence of a lag time before polymerisation takes off, and pinpoint the conditions required for observing these types of phenomenon in the assembly and disassembly kinetics. We argue that the phenomenological kinetic parameter in our theory is a pathway controller, i.e., it controls the relative weights of the molecular pathways through which self-assembly takes place.

Keywords

EQUILIBRIUM POLYMERIZATION, LIVING POLYMERIZATION, PROTEIN AGGREGATION, MICELLES, MODEL, MECHANISMS, NANOTUBES, CHIRALITY, POLYMERS, FIBRILS

Citation

Tiwari, N S, Merkus, K & van der Schoot, P 2015, 'Dynamic Landau theory for supramolecular self-assembly', European physical journal. E, Soft Matter, vol. 38, no. 9, 105. https://doi.org/10.1140/epje/i2015-15105-5