Engineers from the University of Nebraska–Lincoln have created a groundbreaking robotic skin that mimics nature’s ability to self-heal—no stitches or human assistance required. The innovation: The robotic “skin” is made from soft silicone embedded with liquid metal droplets, capable of detecting and responding to damage such as tears, pressure, or punctures. When a breach occurs, the system instantly redirects an electrical current to the affected area. That current generates localized heat, melting the material and sealing the damage—much like how human skin forms a scab. Once repaired, the system automatically resets itself, clearing the damage log so it’s ready to heal again in the future. Inspired by both human and plant biology, this smart material could revolutionize everything from soft robotics and wearable tech to space exploration and prosthetics. This self-repairing skin is a major step toward autonomous machines that can survive real-world environments without constant maintenance or human intervention. #Robotics #TechInnovation #SelfHealingTech #RobotSkin #FutureOfAI

Japanese scientists have engineered lab-grown skin from real human cells and applied it to robots—granting them the ability to mimic human facial expressions like smiling, and even heal wounds just like living tissue. The artificial skin, made of collagen and dermal fibroblasts, can stretch and repair itself when damaged. It attaches seamlessly to robot faces using special 3D-printed anchors, allowing dynamic movement and more lifelike interactions. Future Applications From advanced humanoid robots to future skin grafts and prosthetics, this innovation could revolutionize not only robotics but also reconstructive and cosmetic medicine. #Robotics #AI #LabGrownSkin #SelfHealingTech #HumanRobot