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Elisabetta Colombo graduated in Physics of Advanced Technologies at the University of Torino in 2005. From 2005 to 2008 she specialized in materials characterization techniques and carbon based materials properties during the PhD at the Experimental Physics Department at the University of Torino. She worked as post-doc fellow in the following two/three years at the Electron Devices and Circuits Department at the University of Ulm in Germany: there she designed, fabricated and tested HFCVD diamond sensors for drug-screening and bio-chemical applications, constantly interacting with neuroscientists and clinical groups. Back to Italy, with an improved background in electrochemistry and cleanroom fabrication technologies, she worked in the private sector for a couple of years, focusing first on solar cells technologies, and subsequently on radar and navigation systems. She was then post-doc fellow at the NSYN Center of IIT in Genova, where she focused her research on the development and characterization of photosensitive neural interfaces. At IIT, her main activity was related to a novel retinal device based on photovoltaic conjugated polymers able to modulate neuronal activity upon illumination at the level of membrane potential in cultured neurons, or more complex neuronal networks like retina explants. Following up on this project, she was involved in different interdisciplinary projects deputed to the development of light-sensitive neurostimulation tools from the fabrication, to the in vitro testing, to the final application in vivo. Now, she is Technologist at the NSYN Center of IIT in Genova where she provides the support and know-how for the developing of successful therapeutic photostimulation strategies in the field of vision restauration, she support their technological translation to clinical practice, and manages over the setups and experimental facilities of the center.
Title: Master in Physics
Institute: Università di Torino
From: 2000 To: 2005
Title: PhD in Material Science
Institute: Università di Torino
From: 2005 To: 2008
Barsotti J., Perrotto S., Candini A., Colombo E., Camargo F., Di Marco S., Zangoli M., Sardar S., Barker A., D'Andrea C., Cerullo G., Rozen S., Benfenati F., Di Maria F., Lanzani G.
Core-shell architecture in poly(3-hexylthiophene) nanoparticles: tuning of the photophysical properties for enhanced neuronal photostimulation
ACS Appl. Mater. Interfaces
Article in Press Journal
Francia S., Shmal D., Di Marco S., Chiaravalli G., Maya-Vetencourt J.F., Mantero G., Michetti C., Cupini S., Manfredi G., DiFrancesco M.L., Rocchi A., Perotto S., Attanasio M., Sacco R., Bisti S., Mete M., Pertile G., Lanzani G., Colombo E., Benfenati F.
Light-induced charge generation in polymeric nanoparticles restores vision in advanced-stage retinitis pigmentosa rats
Nature Communications, vol. 13, (no. 1)
Francia S., Di Marco S., DiFrancesco M.L., Ferrari D.V., Shmal D., Cavalli A., Pertile G., Attanasio M., Maya-Vetencourt J.F., Manfredi G., Lanzani G., Benfenati F., Colombo E.
P3ht-Graphene Device for the Restoration of Visual Properties in a Rat Model of Retinitis Pigmentosa
Advanced Materials Technologies
Movio M.I., de Lima-Vasconcellos T.H., dos Santos G.B., Echeverry M.B., Colombo E., Mattos L.S., Resende R.R., Kihara A.H.
Retinal organoids from human-induced pluripotent stem cells: From studying retinal dystrophies to early diagnosis of Alzheimer's and Parkinson's disease
Seminars in Cell and Developmental Biology
Gaspar S., Ravasenga T., Munteanu R.-E., David S., Benfenati F., Colombo E.
Electrochemically synthesized poly(3-hexylthiophene) nanowires as photosensitive neuronal interfaces
Materials, vol. 14, (no. 16)
Colleagues of Neuroscience and Smart Materials