Neuromorphic sensorimotor loop embodied by monolithically integrated, low-voltage, soft e-skin
- PMID: 37200416
- DOI: 10.1126/science.ade0086
Neuromorphic sensorimotor loop embodied by monolithically integrated, low-voltage, soft e-skin
Abstract
Artificial skin that simultaneously mimics sensory feedback and mechanical properties of natural skin holds substantial promise for next-generation robotic and medical devices. However, achieving such a biomimetic system that can seamlessly integrate with the human body remains a challenge. Through rational design and engineering of material properties, device structures, and system architectures, we realized a monolithic soft prosthetic electronic skin (e-skin). It is capable of multimodal perception, neuromorphic pulse-train signal generation, and closed-loop actuation. With a trilayer, high-permittivity elastomeric dielectric, we achieved a low subthreshold swing comparable to that of polycrystalline silicon transistors, a low operation voltage, low power consumption, and medium-scale circuit integration complexity for stretchable organic devices. Our e-skin mimics the biological sensorimotor loop, whereby a solid-state synaptic transistor elicits stronger actuation when a stimulus of increasing pressure is applied.
Comment in
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Electronic skin with onboard sensory feedback system.Nat Biotechnol. 2023 Jun;41(6):766. doi: 10.1038/s41587-023-01843-3. Nat Biotechnol. 2023. PMID: 37316741 No abstract available.
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