A soft artificial muscle that can heal itself after electrical failure and bounce back to 91% of its original performance has ...

A carbon fiber composite that can seal its own cracks and restore structural strength more than 1,000 times in a row has been ...

Seoul researchers built an artificial muscle that changes shape, self-heals and can be reused for future robots.

Breaking away from conventional robots that perform only predefined functions once fabricated, researchers have developed a ...

The breakthrough addresses a critical structural failure known as delamination, where layers in fiber reinforced polymer (FRP ...

Advanced materials like self-healing polymers and composites enhance space robots' durability, enabling them to thrive in ...

Self-healing polymers have evolved from early-stage laboratory concepts into commercially viable materials, particularly between 2022 and 2025, as industries increasingly focus on ...

Researchers at Georgia Tech have developed "living" polymers capable of growing, shrinking, healing, and regenerating after ...

Imagine trying to design machines that will last forever, regardless of use or destination. Instead of those machines requiring a steady stream of spare parts (essentially impossible for space probes ...

A joint research team led by Professors Donghee Son and Jin-Hong Park at Sungkyunkwan University has developed a stretchable, self-healing, and reconfigurable electronic circuit platform that can ...

Using two self-healing transistors and a load resistor, NAND and NOR logic gates were assembled, and their logic states were reliably maintained under 20% tensile strain. Moreover, the preassembled ...