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Paper detail

Nanopore and nanoparticle formation with lipids, undergoing polymorphic phase transitions

We describe several unexpected phenomena, caused by a solid-solid phase transition (gel-to-crystal) typical for all main classes of lipid substances - phospholipids, triglycerides, diglycerides, alkanes, etc. We discovered that this transition leads to spontaneous formation of a network of nanopores, spreading across the entire lipid structure. These nanopores are spontaneously impregnated (flooded) by water when appropriate surfactants are present, thus fracturing the lipid structure at a nano-scale. As a result, spontaneous disintegration of the lipid into nanoparticles or formation of double emulsions is observed, just by cooling and heating of an initial coarse lipid-in-water dispersion around the lipid melting temperature. The process of nanoparticle formation is effective even after incorporation of medical drugs of high load, up to 50 % in the lipid phase. The role of the main governing factors is clarified, the procedure is optimized, and the possibility for its scaling-up to industrially relevant amounts is demonstrated.

preprint2020arXivOpen access
Diana CholakovaDesislava GlushkovaSlavka TcholakovaNikolai Denkov
cond-mat.softcond-mat.mtrl-sciphysics.chem-ph
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Diana CholakovaDesislava GlushkovaSlavka TcholakovaNikolai Denkov

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