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Journal of Thermal Analysis and Calorimetry
Authors:
J. P. Bastide
,
K. Ezzemouri
,
J. M. Létoffé
,
P. Claudy
, and
A. Bouamrane

The thermal behaviour of complexes [Li+-EC](AlH4) withEC=12-C-4, 15-C-5, DC 18-C-6 (cis-anti-cis andcis-syn-cis isomers) was investigated by Differential Scanning Calorimetry (DSC). These complexes were prepared as solids from benzene solutions. Pure EC and several solvated species [Li+-EC](AlH4)·nC6H6 (EC=15-C-5, DC 18-C-6syn) were also studied. DSC has revealed various phenomena. Solid-solid transitions were observed before melting for [Li+-EC](AlH4) withEC=12-C-4 and 15-C-5. They are probably explained by small molecular modifications strongly dependent on the thermal history of the sample. A glass-transition was found for the pure crown-ether DC 18-C-6anti, the complex [Li+-EC](A1H4) withEC=DC-18-C-6anti and the two solvates mentioned above.

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Journal of Thermal Analysis and Calorimetry
Authors:
P. Cloudy
,
J. M. Létoffé
,
P. Germain
,
J. P. Bastide
,
A. Bayol
,
S. Blasquez
,
R. C. Rao
, and
B. Gonzalez

Study and characterization of molecular complexes between cholesterol and beta cyclodextrin has been done using X-ray diffraction, thermogravimetric analysis (TG), differential scanning calorimetry (DSC) and nuclear magnetic resonance spectroscopy (13C NMR). Whatever the value of the molar ratio cholesterol/βCD used during the preparation, the same compound is always obtained. Corresponding to a molar ratio 1/3 (cholesterol/βCD), this compound is a stable hydrate which, contrary toβCD, contains at room temperature a large amount of molecules of water. It can be dehydrated under low pressure but the thermal degradation occurs at 200°C (250°C forβCD). This implies that cholesterol is strongly bounded toβCD.

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