Seeking to relieve the burden on clinics and primary care doctors, researchers created a urinalysis system that uses a black box and smartphone camera to analyze a standard medical dipstick.
Active chemical agents in saltwater help to break down the byproducts of coastal algae in ways that seem to counteract deadly algal bloom but may have other, less desirable effects.
Student teams at Stanford use "lean launch pad" startup methodology to innovate at speed and find technological solutions for critical challenges facing America’s defense and intelligence agencies.
New insights into the characteristics of collagen, the protein that provides structure and stability for cells but which also stretches like Silly Putty, could help scientists design techniques for regenerating tissues.
The robot, called OceanOne, is powered by artificial intelligence and haptic feedback systems, allowing human pilots an unprecedented ability to explore the depths of the oceans in high fidelity.
New research provides a first look inside phase-changing nanoparticles, showing how their shape and crystallinity shape affect their performance for battery applications.
Pigeons can currently outclass any aerial robot’s flight. Stanford engineering professor David Lentink plans to use a new wind tunnel to learn the magic of bird flight and apply it to building better aerial robots.
