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Octopus-Inspired Adhesive Electrode for EMG: IJIBC
A co-first-author study of an octopus-sucker-inspired microstructure that measures EMG signals on dry and wet skin.
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A co-first-author study of an octopus-sucker-inspired microstructure that measures EMG signals on dry and wet skin.
A co-first-author study of a hydrogel electrode that adheres to rough, moisture-changing leaf surfaces and records electrical signals.
A co-first-author review comparing the structures, sensing approaches, and control methods of octopus-inspired grippers.
Our bioelectrical-signal sensor inspired by octopus suckers received a Best Poster Award at the 2018 MRS Fall Meeting.