Researchers have achieved a tremendous breakthrough in the field of soft robotics, creating a bot using water-based hydrogen material, so as to allow it to be patterned, folded, and manipulated to ...

Embodying intelligence into materials requires engineering systems that can autonomously sense, adapt, and respond to environmental stimuli, similar to the dynamic behaviours of living organisms.

Engineers at MIT have devised an ingenious new way to produce artificial muscles for soft robots that can flex in more than one direction, similar to the complex muscles in the human body. The team ...

After vocal cord surgery, many patients develop stiff vocal folds that impact their ability to speak. Hydrogels can help prevent this by promoting healing, but delivering hydrogels to the vocal cords ...

Harvard engineers created rotational multimaterial 3D printing that embeds air channels in soft robotic parts, enabling hand-like motion without molds.

The field of soft electronics has seen remarkable progress, with conductive hydrogels standing out as pivotal materials for stretchable electronic devices.

Inspired by the hardness-changing behavior of sea cucumbers, a 3D-printed hard/soft switchable hydrogel was successfully developed by infusing a phase transition hydrated salt solution into the ...