MIT

Injection needles can be scary, and the larger ones for longer-term medications are far more intimidating. Researchers have created a better way to deliver drugs into patients' systems, and it involves turning those drugs into tiny crystals.

Have you ever wondered why walking from point A to B can be easy in some places, and incredibly frustrating in others? Well, scientists have uncovered the mathematical equation that underpins how foot traffic can collectively descend into utter chaos.

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. It could soon unlock new capabilities for squishy bots.

In a major breakthrough for regenerative medicine, MIT scientists have developed a way to convert skin cells directly into brain cells extremely efficiently, without needing to go through the intermediate step of converting them to stem cells first.

MIT spinout Boston Metal has powered up its electricity driven steel production reactor and made over a ton of metal in a crucial step toward commercializing its process. With clean electricity, the process could make steel with zero CO2 emissions.

A study of over 220,000 people that looked at the consumption of butter versus plant oils has reached a conclusion that shows just how much better for you one is than the other. Making the switch might be one of the easiest ways to extend your life.

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.

Engineers at MIT have devised a way to help drones find their way through unlit indoor spaces autonomously, without costly cameras. That'll come in handy for mapping and monitoring warehouses and tunnels, as well as search and rescue operations.

Inspired by the humble bee, robotics researchers at MIT have designed insect-sized aerial bots with a reimagined wing system that can fly for up to 1,000 seconds – 100 times more than any similar bots we've seen in the past.

Ammonia has enormous potential as a fuel of the future, but most current production methods make it a dirty source of energy. Yet a new method from MIT that would derive the compound using the Earth's rocks and natural heat cleans it up considerably.

Imagine having a picture on your wall that completely changes when the room gets too warm. Engineers at MIT have created a new printing technology called Thermochromorph to make full-color images that switch in response to temperature.

In order for a VR environment to seem real, it definitely helps if you can experience the sensation of touch within that virtual world. A special sleeve could soon allow people to better do so, using air instead of electric motors.