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Elucidating the mechanisms of nanodiamond-promoted structural disruption of crystallised lipid
Abstract: The removal or structural disruption of crystallised lipid is a pivotal but energy-intensive step in a wide range of industrial and biological processes. Strategies to disrupt the structure of crystallised lipid in aqueous solution at lower temperatures are much needed, where nanoparticle-based strategies show enormous promise. Using the aqueous tristearin bilayer as a model for crystallised lipid, we demonstrate that the synergistic use of surfactant and detonation nanodiamonds can depress the onset temperatu…
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2019
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“…It has also been demonstrated that diamonds can be incorporated in lipid membranes, which changes their crystallization properties. In combination with FND, several different lipid coatings have been investigated too.…”
Section: Introductionmentioning
confidence: 99%
“…It has also been demonstrated that diamonds can be incorporated in lipid membranes, which changes their crystallization properties. In combination with FND, several different lipid coatings have been investigated too.…”
Section: Introductionmentioning
confidence: 99%
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