Add to ORKGStable polysaccharide microcontainers are fabricated by ultrasonically assisted procedure. Ultrasound induces formation of permanent microcontainer shell due to interaction between chitosan and xanthan gum. The obtained system has a core-shell structure with high loading capacity for hydrophobic molecules. The permanent polymer shell thickness of 7-10 nm allows to maintain the microcontainer stability for more than 4 months. The microcontainers in a wide size range of 350-7500 nm were obtained by changing an overall emulsion viscosity. Uptake of the microcontainers by mouse melanoma M3 cells was studied by flow cytometry and confocal microcscopy. When you are citing the document, use the following link http://essuir.sumdu.edu.ua/handle/1234...
© Dr. Francesca CavalieriPublications included in thesis:Cavalieri, F., Colone, M., Stringaro, A., T...
Liquid-encapsulated lysozyme microspheres were successfully synthesized using a sonochemical method....
The fabrication of micrometer-sized core−shell particles for ultrasound-triggered delivery offers ...
Chitosan/xanthan gum microcontainers with a core–shell structure formed due to chemical interactions...
This mini-review is focused on an engineering approach to produce polysaccharides-based microparticl...
Ultrasonically synthesized core-shell microcapsules can be made of synthetic polymers or natural bio...
Ultrasonically synthesized core-shell microcapsules can be made of synthetic polymers or natural bio...
The field of microencapsulation has found increasing application since its industrial debut in carbo...
A method to produce biopolymeric (alginate) microparticles by ultrasonic assisted atomization, previ...
In this study a protocol exploiting the combination of the ultrasonic atomization and the complexati...
Microencapsulation of active molecules in biocompatible polymers is a matter of great interest in ph...
International audienceA series of hollow biodegradable polymeric microcapsules were prepared, of whi...
A technology based on the application of ultrasound as an energy source was applied to get polylacti...
© Dr. Francesca CavalieriPublications included in thesis:Cavalieri, F., Colone, M., Stringaro, A., T...
Liquid-encapsulated lysozyme microspheres were successfully synthesized using a sonochemical method....
The fabrication of micrometer-sized core−shell particles for ultrasound-triggered delivery offers ...
Chitosan/xanthan gum microcontainers with a core–shell structure formed due to chemical interactions...
This mini-review is focused on an engineering approach to produce polysaccharides-based microparticl...
Ultrasonically synthesized core-shell microcapsules can be made of synthetic polymers or natural bio...
Ultrasonically synthesized core-shell microcapsules can be made of synthetic polymers or natural bio...
The field of microencapsulation has found increasing application since its industrial debut in carbo...
A method to produce biopolymeric (alginate) microparticles by ultrasonic assisted atomization, previ...
In this study a protocol exploiting the combination of the ultrasonic atomization and the complexati...
Microencapsulation of active molecules in biocompatible polymers is a matter of great interest in ph...
International audienceA series of hollow biodegradable polymeric microcapsules were prepared, of whi...
A technology based on the application of ultrasound as an energy source was applied to get polylacti...
© Dr. Francesca CavalieriPublications included in thesis:Cavalieri, F., Colone, M., Stringaro, A., T...
Liquid-encapsulated lysozyme microspheres were successfully synthesized using a sonochemical method....
The fabrication of micrometer-sized core−shell particles for ultrasound-triggered delivery offers ...