The innovative minds at Princeton have drawn inspiration from the resilient structure of human bones to create a ...

Inspired by the architecture of human bone’s tough outer layer, engineers at Princeton have developed a cement-based material ...

Researchers used robotics and additive manufacturing to toughen cement-based material with precisely placed hollow tubes. The ...

Princeton engineers have created a cement-based material that is 5.6 times more damage-resistant, inspired by the structure ...

‘Nature is our best teacher. It is cyclic, and it heals and sustains itself. This compendium of chapters on bio-inspired structures and design is an inspirational collection that validate the ...

Within the field of materials science, bio-inspired hydrogels are emerging as innovative solutions to combat microbial infections across diverse sectors, including healthcare, environmental protection ...

Bio-inspired foldable robotics, an interdisciplinary field, draws inspiration from the ancient art of origami and kirigami to develop innovative robotic systems. This area integrates principles from ...

Formafantasma, the design-forward studio based in both Italy and the Netherlands built a biodiversity island in the vineyards ...

"Our research team developed a lizard- inspired robot capable of level running ... Similarly, this understanding may also help to design faster and more stable and efficient robotic strides.

Inspired by the architecture of human bone's tough outer layer, engineers at Princeton have developed a cement-based material ...