Abstract
AbstractLarge scale neural recordings are redefining our understanding of the brain. However, simultaneously recording potentials from thousands of microelectrodes remains challenging. We overcome this limitation by measuring activity-induced changes in mutual capacitance. Code division multiplexing enabled simultaneous recordings of neural activity from 1,024 nanocapacitor electrodes at a density of 10k electrodes/mm.2Features of neural activityi.e., action potentials, bursts, and local field potentials were measured in recordings, benchmarking our device against the state-of-the-art.SummaryCapacitive sensing of neural activity improves the scalability, fabrication, and miniaturization of microelectrode arrays.
Publisher
Cold Spring Harbor Laboratory