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Neural interfaces made of soft‐nanomaterials are attachable on the brain surface and enable wide‐range neural recording, self‐powered optogenetic stimulation, and controlled drug delivery in freely moving animals. In article number 1907522, Keon Jae Lee, Daesoo Kim, and co‐workers review recent developments in such brain‐compatible neural interfaces that use soft nanomaterials more suitable for complex...
Neural interfaces facilitating communication between the brain and machines must be compatible with the soft, curvilinear, and elastic tissues of the brain and yet yield enough power to read and write information across a wide range of brain areas through high‐throughput recordings or optogenetics. Biocompatible‐material engineering has facilitated the development of brain‐compatible neural interfaces...
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