Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Next revision
Previous revision
start [2020/12/22 20:45]
Michele GIUGLIANO
start [2020/12/23 14:57] (current)
Michele GIUGLIANO
Line 17: Line 17:
 **Read [[pressrelease1|here]] our kick-off press release.** **Read [[pressrelease1|here]] our kick-off press release.**
  
-Aiming at novel neuro-technological routes for brain treatment, the project combines very different disciplines of science and technology, such as neurobiology, electrochemistry, 3-d nanofabrication, nanoelectronics, and numerical simulations. The IN-FET consortium of academic and industrial partners has a laser-sharp focus on exploiting neuronal biophysics and electronic device modeling, to build a breakthrough technology for a brand new generation of brain pacemakers.+Aiming at novel neuro-technological routes for brain treatment, the project combines very different disciplines of science and technology, such as neurobiology, electrochemistry, 3D nanofabrication, nanoelectronics, and numerical simulations. The IN-FET consortium of academic and industrial partners has a laser-sharp focus on exploiting neuronal biophysics and electronic device modeling, to build a breakthrough technology for a brand new generation of brain pacemakers.
  
 IN-FET's efforts and discoveries will ultimately advance current neuromodulation strategies, specifically aiming at future brain implants for the treatment of brain disorders such as epilepsy. IN-FET will advance neuroscience, biomedical microsystems engineering, and nano- neurotechnology. IN-FET's efforts and discoveries will ultimately advance current neuromodulation strategies, specifically aiming at future brain implants for the treatment of brain disorders such as epilepsy. IN-FET will advance neuroscience, biomedical microsystems engineering, and nano- neurotechnology.
start.1608666347.txt.gz · Last modified: 2020/12/23 14:41 (external edit)