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To achieve large bending displacement and fast response time under ultralow input voltages, as well as improved durability, advanced high‐performance ionic actuators still face crucial design challenges that must be resolved. Here, hierarchically porous and unzipped graphitic nanoribbons anchored on graphene as an efficient electrode material for high‐performance electroionic artificial muscles are...
In article number 1910326, Moumita Kotal, Il‐Kwon Oh, and co‐workers synthesize metal organic framework‐derived graphitic porous nanoribbons anchored on graphene sheets for high‐performance electro‐ionic artificial muscles. The electro‐ionic soft actuator that exhibits exceptional bending displacement, very fast rise time, and excellent cycling stability at low input voltages is applied in a bio‐inspired...
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