SCIENTIFIC RESOURCES
Explore the science behind EVE Biofactory. This selection of papers and scientific materials provide comprehensive background information on our technology and products.
Front. Bioeng. Biotechnol.
Volume 10 | 2022
Isolation of Extracellular Vesicles From Microalgae: A Renewable and Scalable Bioprocess
Paterna A., Rao E., Adamo G., Raccosta S., Picciotto S., Romancino D., Noto R., Touzet N., Bongiovanni A., Manno M.
Front. Bioeng. Biotechnol.
Volume 10 | 2022
Extracellular Vesicles From Microalgae: Uptake Studies in Human Cells and Caenorhabditis elegans
Picciotto S., Santonicola P., Paterna A., Rao E., Raccosta S., Romancino D. P., Noto R., Touzet N., Manno M., Di Schiavi E., Bongiovanni A., Adamo G.
Biomaterials Science
Issue 8 | 2021
Isolation of extracellular vesicles from microalgae: towards the production of sustainable and natural nanocarriers of bioactive compounds
Picciotto S., Barone E. M., Fierli D., Aranyos A., Adamo G., Božič D., Romancino P. D., Stanly C., Parkes R., Morsbach S., Raccosta S., Paganini C., Cusimano A., Martorana V., Noto R., Carrotta R., Librizzi F., Palmiero C.U., Santonicola P.,Iglič A., Gai M., Corcuera L., Kisslinger A., Di Schiavi E., Landfester K., Liguori L. G., Kralj-Iglič V., Arosio P., Pocsfalvi G., Manno M., Touzet N., Bongiovanni A.
Journal of Extracellular Vesicles
Volume 10, Issue 6 | 2021
Nanoalgosomes: Introducing extracellular vesicles produced by microalgae
Adamo G., Barone M., Raccosta S., Cusimano A., Librizzi F., Randazzo L., Parkes R., Capasso Palmiero U., Rao E., Paterna A., Santonicola P., Iglicˇ A., Corcuera L., Kisslinger A, Kralj-Iglicˇ V., Manno M, Di Schiavi E, Liguori E, Landfester K, Arosio P., Pocsfalvi G., Touzet N., Bongiovanni A.
EVE Biofactory is a spin off of the Italian National Research Council (CNR) that originated from the H2020-FET Open project VES4US. The biotechnology was further exploited in the context of the H2020-FETProactive project BOW.
BOW is a project funded by the H2020-FET Proactive Call of the H2020 programme of the European Commission. The main objective of BOW is to create hybrid magnetic nanoparticles with a membrane surface made from an extracellular vesicle.
BOW is a project funded by the H2020-FET Proactive Call of the H2020 programme of the European Commission. The main objective of BOW is to create hybrid magnetic nanoparticles with a membrane surface made from an extracellular vesicle.