Abstract
Some inorganic and organic crystals have been recently found to promote fat crystallization in thermodynamically stable polymorphs, though they lack long hydrocarbon chains. The novel promoters are talc, carbon nanotube, graphite, theobromine, ellagic acid dihydrate, and terephthalic acid, among which graphite surpasses the others in the promotion effect. To elucidate the mechanism, we investigated the influence of graphite surfaces on the crystallization manner of trilaurin in terms of crystal morphology, molecular orientation, and crystallographic features. Polarized optical microscopy, cryo-scanning electron microscopy, synchrotron X-ray diffractometry, and polarized Fourier-transform infrared spectroscopy combined with the attenuated total reflection sampling method were employed for the analyses. All the results suggested that the carbon hexagonal network plane of graphite surfaces have a high potential to facilitate the clustering of fat molecules against high thermal fluctuations in fat melt, the fat molecules form a layer structure parallel to the graphite surface, and the clusters tend to grow into thin plate crystals of the β phase at the temperatures corresponding to low supercooling. The β′ phase also has a larger chance to grow on the graphite surface as supercooling increases.
Highlights
Surfactants and materials having long hydrocarbon chains have been used as additives to promote fat crystallization [1]
Recent studies found that some inorganic and organic crystals promoted fat crystallization in thermodynamically stable polymorphs [4,5]. These additives are sparingly soluble in lipids and possess no long hydrocarbon chains in their chemical structure, which implies that the additive surfaces attract fat molecules strongly and urge them to form crystal nuclei
The polarized optical microscopy (POM) images acquired clearly displayed that the morphology of LLL crystals
Summary
Surfactants and materials having long hydrocarbon chains have been used as additives to promote fat crystallization [1]. Recent studies found that some inorganic and organic crystals (i.e., talc, carbon nanotube, graphite, theobromine, ellagic acid dihydrate, and terephthalic acid) promoted fat crystallization in thermodynamically stable polymorphs [4,5]. These additives are sparingly soluble in lipids and possess no long hydrocarbon chains in their chemical structure, which implies that the additive surfaces attract fat molecules strongly and urge them to form crystal nuclei. Information about the structural relationship between the surface of the novel promoters and the heterogeneously nucleating fat crystals thereon, as well as the resultant changes in the fat crystallization process, is crucial to understand the role of the novel promoters and to develop more effective promoters
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