Il‐Kwon Oh and co‐workers develop high‐performance electroionic antagonistic muscles based on nitrogen‐doped carbons derived from a poly(triazine‐triptycene) organic framework. As reported in article number 1700410, the antagonistic muscles exhibit extremely… Click to show full abstract
Il‐Kwon Oh and co‐workers develop high‐performance electroionic antagonistic muscles based on nitrogen‐doped carbons derived from a poly(triazine‐triptycene) organic framework. As reported in article number 1700410, the antagonistic muscles exhibit extremely reliable and large bending actuation performance for long periods under ultralow input voltages due to the outstanding electro‐chemomechanical properties of nitrogen‐doped carbons. A Dionaea muscipula inspired flower device is successfully demonstrated under the controlled electric signals.
               
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