Polymer-based conductive nanocomposites, particularly those incorporating carbon nanotubes, are highly promising for the ...

Budding surgeons may soon train on stretchy, lifelike 3D-printed skin that oozes out blood and pus when cut.

A kirigami-skinned soft robot powered by pneumatic muscles achieves crawling, steering and obstacle avoidance, advancing ...

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.

A groundbreaking biodegradable heart patch promises to repair damaged heart muscle by merging with tissue and dissolving ...

Additive manufacturing, also known as 3D printing, has proven transformative for fabricating electrically conductive polymer ...

On September 5, 2023, in Beijing, the China Association for Science and Technology held a media open day event for the first National Science Popularization Month.

University of Minnesota researchers develop a 3D printing technique for realistic human tissue models for surgical training.

Polymer-based conductive nanocomposites, particularly those incorporating carbon nanotubes, are highly promising for the development of flexible electronics, soft robotics and wearable devices.

Prof. Pyo highlighted the broader potential of the technology: "Our CNT nanocomposites open the door to a new generation of 3D-printed materials that are both highly stretchable and conductive, ideal ...

“The flat, rigid shape of today’s mouse forces the hand into an unnatural position,” Nazarbayev University Associate ...