Issue 14, 2018
From the journal:

Physical Chemistry Chemical Physics

Variable temperature NMR of organogelators: the intensities of a single sample describe the full phase diagram

Elliot Christ,a   Dominique Collin,a   Jean-Philippe Lampsa  and  Philippe J. Mésini ORCID logo *ab  

* Corresponding authors

a Institut Charles Sadron, Université de Strasbourg, 23 rue du Loess, BP 84047, 67034 Strasbourg Cedex, France
E-mail: mesini@ics-cnrs.unistra.fr

b International Center for Frontier Research in Chemistry, 8 allée Gaspard Monge, 67000 Strasbourg, France

Abstract

Organogelators constitute a numerous class of compounds, able to form gels in organic solvents. Their phase diagrams are useful to understand their mechanisms of formation and their stability, but their mapping is often a tedious task. We show that liquid NMR can simplify and quicken the acquisition of phase diagrams. In liquid NMR spectra of organogels, the visible signals of the gelator represent only its soluble fraction. The intensities increase with temperature, until the gel melts. Suitable normalization of these intensities yields the solubility as a function of temperature, which is sufficient to map the phase diagram. We verified it experimentally with three organogelators, chosen because independent authors have previously mapped out their phase diagram by other techniques including DSC and rheology. We show that the curves obtained by NMR superimpose with these diagrams. A variable temperature NMR experiment with a single sample can yield the phase diagram with sensitivity of the order of 0.01 wt%.

Graphical abstract: Variable temperature NMR of organogelators: the intensities of a single sample describe the full phase diagram

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Article information

DOI
https://doi.org/10.1039/C8CP00009C
Article type
Paper
Submitted
01 Jan 2018
Accepted
15 Mar 2018
First published
27 Mar 2018

Phys. Chem. Chem. Phys., 2018,20, 9644-9650

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Variable temperature NMR of organogelators: the intensities of a single sample describe the full phase diagram

E. Christ, D. Collin, J. Lamps and P. J. Mésini, Phys. Chem. Chem. Phys., 2018, 20, 9644 DOI: 10.1039/C8CP00009C

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