Abstract
The physics side of organogelation is broached through three main aspects, thermodynamics (formation and melting), structure (morphology and molecular organization), and rheology. A definition of a gel is first discussed so as to delimit the field of investigation; namely, systems constituted of fibril-like entities. It is again highlighted that gel formation occurs through first-order transitions, chiefly by homogeneous nucleation. A deeper knowledge of the system is thus achieved by mapping out the temperature–concentration phase diagram. Some experimental diagrams are shown, while diagrams likely to pertain to these systems are presented. The molecular arrangement is basically crystallization that occurs in a preferred direction, hence the formation of fibrils. The effects of the solvent type, the quenching process of the solution are discussed with respect to the morphology and the crystal structure. Finally, the rheological properties are tackled. Notions of critical gelation concentration and percolation are debated. The interest of mapping out the temperature–concentration phase diagram is emphasized, particularly for understanding the variation of the gel modulus with temperature.
Highlights
Organogelation is a relatively-new topic that has emerged these past 20 years [1,2,3,4,5].From a few papers in the early nineties, the number of papers amounts to more than 200/year when one enters in databases the single keywords “organogelation”, or “organogel” [6]
How and why do they form, what are the relations between their morphology/structure with their properties, with their rheological properties? This special issue is an opportunity for discussing some important physical aspects that should be addressed in order to gain a deeper understanding of these systems
The thermodynamics of organogel formation is an important step in understanding these systems, through the mapping out of the temperature-composition phase diagram
Summary
Organogelation is a relatively-new topic that has emerged these past 20 years [1,2,3,4,5]. This special issue is an opportunity for discussing some important physical aspects that should be addressed in order to gain a deeper understanding of these systems. How and why do they form, what are the relations between their morphology/structure with their properties, with their rheological properties? In this aim, some basic principles are presented and basic investigations are suggested. Some recent experimental results illustrate the physics-oriented approach of this topic, yet this article is by no means a comprehensive review on organogels
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