2010
DOI: 10.1080/08957951003630449
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Raman spectroscopy of triolein under high pressures

Abstract: This article presents results of the high pressure Raman spectroscopy of triolein. Triolein, a triacylglyceride (TAG) of oleic acid, is an unsaturated fat, present in natural oils such as olive oil. As a basic food component and an energy storage molecule, it has considerable importance for food and fuel industries. To generate pressure in the experiment, we used a high-pressure cylindrical chamber with sapphire windows, presented in (R.M. Siegoczyński, R. Kościesza, D.B. Tefelski, and A. Kos, Molecular collap… Show more

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Cited by 15 publications
(14 citation statements)
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“…A phase transition of triolein under pressure has been observed by studying the compressibility (Rostocki et al, ), speed of sound (Balcerzak, ), and changes in light transmission and light scattering (Tefelski et al, ). Tefelski et al () studied solidified technical‐grade triolein at a pressure of 400 MPa with Raman spectroscopy and found a spectrum that corresponds to β‐crystals. Ferstl et al () determined the melting curve of triolein β‐crystals with a polarization microscope up to pressures of about 400 MPa.…”
Section: Introductionmentioning
confidence: 99%
“…A phase transition of triolein under pressure has been observed by studying the compressibility (Rostocki et al, ), speed of sound (Balcerzak, ), and changes in light transmission and light scattering (Tefelski et al, ). Tefelski et al () studied solidified technical‐grade triolein at a pressure of 400 MPa with Raman spectroscopy and found a spectrum that corresponds to β‐crystals. Ferstl et al () determined the melting curve of triolein β‐crystals with a polarization microscope up to pressures of about 400 MPa.…”
Section: Introductionmentioning
confidence: 99%
“…Observations of slow molecular crystal growth were described in [3]. The high pressure (HP) molecular crystal structure was examined by the Raman spectroscopy [4]. Electronic absorption spectrum changes were studied in [5].…”
Section: Introductionmentioning
confidence: 99%
“…On the other hand, the stretching mode of the C=O bonds, located in the polar heads of the lipid molecules, exhibits an abrupt change at 0.9 GPa, where its slope changes from negative (−3.9 cm −1 /GPa) to positive (4.3 cm −1 /GPa), becoming similar to that of the C=C bonds. This transition can be attributed to a change in the packing of the lipid molecules from the hexagonal α‐form to an orthorhombic (β΄) or triclinic (β) phase . It is known that the triacylglycerol polymorphs follow the Ostwald step rule, where the less stable polymorph (α‐form) crystallizes much faster than the more stable β΄‐ and β‐form when crystallization is promoted by supercooling or supersaturation .…”
Section: Discussionmentioning
confidence: 99%