Translating basic neuroscience research into experimental neurology applications often requires functional interfacing of the central nervous system (CNS) with artificial devices designed to monitor and/or stimulate brain electrical activity. Ideally, such interfaces should provide a high temporal and spatial resolution over a large area of tissue during stimulation and/or recording of neuronal activity, with the ultimate goal to elicit/detect the electrical excitation at the single-cell level and to observe the emerging spatiotemporal correlations within a given functional area. Activity patterns generated by CNS neurons have been typically correlated with a sensory stimulus, a motor response, or a potentially cognitive process.
Carbon nanotubes as electrical interfaces to neurons / Giugliano, Michele; Luca, Gambazzi; Ballerini, Laura; Maurizio, Prato; Stephane, Campidelli. - (2012), pp. 187-207. [10.1007/978-0-387-31296-5_9]
Carbon nanotubes as electrical interfaces to neurons
Michele Giugliano;Ballerini, Laura;
2012-01-01
Abstract
Translating basic neuroscience research into experimental neurology applications often requires functional interfacing of the central nervous system (CNS) with artificial devices designed to monitor and/or stimulate brain electrical activity. Ideally, such interfaces should provide a high temporal and spatial resolution over a large area of tissue during stimulation and/or recording of neuronal activity, with the ultimate goal to elicit/detect the electrical excitation at the single-cell level and to observe the emerging spatiotemporal correlations within a given functional area. Activity patterns generated by CNS neurons have been typically correlated with a sensory stimulus, a motor response, or a potentially cognitive process.| File | Dimensione | Formato | |
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