![]() ![]() The biohybrid E-skin highly mimics the human skin softness and morphology and can sense forces as low as 0.01 newton. In this paper, a novel biohybrid E-skin that provides tactile sensing is developed. ![]() However, no research was conducted to realize Biohybrid E-skin. The number of prototypes that conformed the use of biological tissues within the structure of soft robots-to develop “Biohybrid Soft Robots”-has increased in the last decade. Soft and flexible E-skin advances are a subset of soft robotics field where the soft morphology of human skin is mimicked.
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