Robotic Manipulation under Harsh Conditions Using Self‐Healing Silk‐Based Iontronics (Adv. Sci. 2/2022).

B Silk-Based Iontronics b In article number 2102596, Tiger H. Tao and co-workers report a unique silk-based iontronic composite to simultaneously achieve high conductivity, self-healing, strong stretchability, high strain sensitivity and transparency, and universal adhesiveness across a broad working temperature range. Robotic Manipulation under Harsh Conditions Using Self-Healing Silk-Based Iontronics (Adv. Sci. 2/2022) Those merits facilitate the implementation of damage-resilient intelligent robotic manipulation. [Extracted from the article]