E-skin uses pressure sensors to determine what level of force is required to complete a given task. However, current e-skin models that are stretched lose this ability as they sense the deformation.

Stretchable e-skin could give robots human-level touch sensitivity. University of Texas at Austin. Journal Matter DOI 10.1016/j.matt.2024.04.009 ...

University of Texas researchers are working on 'e-skin' technology similar to human skin. The latest model has stretchy material, touch sensors. New 'e-skin' mimics human skin and could one day be ...

The e-skin integrates various sensing materials, such as silver nanowires and conductive polymers within a flexible base, closely resembling the complex sensory functions of real skin.

For this robot's skin face, there's a point -- beyond horrifying us -- to creating a smile in the tissue. By making a relatively flat robotic face seem to smile, ...

Robots are often covered in a material made to resemble flesh, such as silicone, which is attached via an adhesive or fastening - but this can lead to the skin falling off or breaking, says Wang.

The lab-grown skin has been attached to a simple, tiny robot face that is capable of smiling — and the tissue can heal itself. “The skin can repair itself if damaged, similar to how human skin ...