Biomimicry

Even if you've built one of the world's best insect-inspired micro air vehicles, it won't be that useful if it can't stick a landing. That's why Harvard scientists have now given their RoboBee a set of long, jointed legs like those of the crane fly.

Oyster mushrooms and bits of bamboo sound more at home on a Chinese menu than stuck to the wall, but scientists have used this mix to make aesthetically pleasing tiles with bumps and textures that help regulate temperature much like elephant skin does.

I love me a bioinspired robot that pulls off challenging feats with cues from nature. Researchers have shown off the one-legged Salto bot mimic the way squirrels leap effortlessly between precarious branches and stick the landing on the first attempt.

Deep-sea sponges have a secret: their light lattice-like forms are astonishingly stiff and strong. Inspired by these creatures, RMIT researchers have developed a new structure to make significantly stronger materials for more durable buildings.

You may not know what a springtail is but man, those little things can jump! Scientists have now copied the creatures' jumping mechanism in a small robot that could one day explore places that people can't go.

It’s hard to get glue to work underwater – unless you’re a mussel. Scientists have now created a new adhesive that combines the stickiness of mussel’s natural glue with the slimy, germ-repelling nature of mucus.

If a robot is being used to gather data in sensitive aquatic environments, it shouldn't have a whirring propeller that could harm wildlife or get caught in weeds. A new bot addresses that issue by utilizing a swimming mechanism inspired by flatworms.

You may think that if a species died out millions of years ago, its design would be too old to have any applications in our technology. A new analysis of pterosaur bones, however, suggests that they could inspire lighter, stronger aircraft materials.

Geckos are able to maintain a grip on wet surfaces not because their toe pads repel water, but because they attract it. A new polymer, which was inspired by this phenomenon, could find use in shoe soles that keep people from slipping on ice.

A study suggests that a certain salamander may be able to control its grip on trees' bark by pumping blood in and out of the tips of its toes. This strategy could one day be copied in human technology such as prosthetic hands and reusable adhesives.

With sights set firmly on supporting the development of hybrid boats, BlueNav has integrated its unique whale-inspired hubless electric drive into a new smart propulsion system with both ICE and electric power.

Pine cones are pretty smart for things with no brains, enough so that scientists have copied them to create a unique window shading system. The setup blocks sunlight in the summer and lets it through in the winter, without using any electricity.