What happens when an expert on natural language processing asks a chatbot to write a children's book in the style of Dr. Seuss? Professor Kai Larsen put the question to the test.
A model of your very own kidney made entirely from soft and pliable polymers? Researchers at two CU campuses are on the cusp of 3D printing realistic replicas of human anatomy.
For people who are blind or visually impaired, finding the right products in a crowded grocery store can be difficult without help. A team of computer scientists at CU ºù«ÍÞÊÓƵ is trying to change that.
If you plop these thin wafers, made up of several layers of rubber-like material, onto a hot plate, they will begin to warp. Then, suddenly and explosively, they leap into the air.
The National Institute of Standards and Technology laboratories have housed atomic clocks for decades—including the cesium atomic clock NIST-F1, which serves as the primary time and frequency standard in the U.S. Researchers continue to improve the clocks' accuracies, a process that sometimes has included rebuilding parts.
Germophobes, brace yourselves. A team of CU ºù«ÍÞÊÓƵ engineers has revealed how tiny water droplets, invisible to the naked eye, are rapidly ejected into the air when a public restroom toilet is flushed. The research also provides a methodology to help reduce this exposure risk.
Scientists from three countries report that materials inspired by nature could one day help engineers design new kinds of solar panels, robots and even coatings for ultra-fast jets.
This molecular link within iodine’s atmospheric interactions can be added to global atmospheric and climate models to help scientists better understand its environmental impacts.
Robots help build cars, fly planes, fight wars and provide health care; they play a role in countless industries, but for the most part, they don't work in chemistry labs. A team of CU ºù«ÍÞÊÓƵ scientists plans to change that.