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Projects

Mechanisms of calcium phosphates formation on inorganic nanomaterials. A biomimetic synthetic route for multifunctional nanocomposites for hard tissue regeneration.

The aim of the proposed project is to systematically investigate the calcium phosphate interactions with two types of inorganic nanomaterials (NMs), namely:

a) titanium dioxide NMs of different morphology (nanoparticles, nanotubes, nanowires, nanoplates),

b) silver nanoparticles of different surface modification (poly(vinylpyrrolidone), PVP; citrate, cit; sodium bis(2-ethyl-hexyl) sulfosuccinate, AOT)

in order to determine the relationship between NMs interface properties (surface modification, morphology, surface charge density, crystal structure) and the properties of forming CaPs solid phase at conditions close to physiological.

Principal investigator: dr.sc. Maja Dutour Sikirić

The lipid-peroxidation inhibition governed by interactions between nanocarried flavonoids and model lipid membranes

We expect to find out how the biocompatible mesoporous NPs made of silica, magnetite and/or goethite loaded with flavonoids affect the organization and fluidity of the model membranes and whether the flavonoids embedded in NPs themselves permeate through and alter the membrane structure protecting their structure under oxidative stress conditions. Within this study we hope to gain more complete understanding of the mechanism of flavonoid action at the molecular level.

Principal investigator: dr.sc. Suzana Šegota

European and Latin American Technology based Business Network - Europa Aid Project

The ELAN Network is a space for collaboration, co-generation and development of technology based business opportunities between Europe and Latin America. It brings together key European and Latin American research and innovation actors (R&I), who promote technology based transformation processes and economic growth.

Principal investigator: dr.sc. Maja Dutour Sikirić

Nanostructured carriers for controlled release of flavonoids as a potential therapeutics for treatment of Alzheimers' disease

The project is the unique opportunity for young researchers in both teams to exchange knowledge, skills and for their further improvement. For researchers with more experience, this will be opportunity to find more efficient approaches for Alzheimer’s disease treatment.

Principal investigator: dr.sc. Suzana Šegota

Protective mechanisms and effects of nano-delivered flavonoids in model cell membranes and neurons (NanoFlavNeuroProtect)

NanoFlavoNeuroProtect will pave the way towards development of inovative and improved therapies for oxidative stress-associated neurological disorders. In addition, the knowledge obtained within NanoFlavNeuroProtect could be extended to designing effective delivery systems for the incorporation, protection and release of other unstable bioactive molecules with an aim to improve human health or to increase the shelf life of pharmaceutical or food products.

Principal investigator: dr.sc. Suzana Šegota

Biocompatible nanoparticles with enhanced therapeutic efficacy of flavonoids in food

The goal of this project is preparation of a functional prototype of biodegradable nanoparticles (NP) having built-in flavonoids as an original solution up to date not present on the market.

Principal investigator: dr.sc. Suzana Šegota

Division of Physical Chemistry

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