Seeing RNA at the nanoscale
Microscopy technique allows scientists to pinpoint RNA molecules in the brain.
Microscopy technique allows scientists to pinpoint RNA molecules in the brain.
Workshop led by scientist and photographer Felice Frankel teaches researchers how to translate experiments into captivating images.
Color-changing materials could be used to detect structural failure in energy-related equipment.
A leader in the field of manufacturing and design has been appointed the Clarence J. LeBel Professor of Electrical Engineering.
Inexpensive sensors could be worn by soldiers to detect hazardous chemical agents.
Laser pulses produce glowing plasma filaments in open air, could enable long-distance monitoring.
Water-based material could be used to make artificial skin, longer-lasting contact lenses.
Engineers find nanosized building blocks of silk hold the secrets to improved filtration membranes.
Technique for “phase locking” arrays of tiny lasers could lead to terahertz security scanners.
Surface treatment greatly reduces degradation of catalyst material.
By slowing down light to a speed slower than flowing electrons, researchers create a kind of optical “sonic boom.”
Stretching process can produce nanoscale rods or strips made of many material combinations.
Like 3-D printing did for larger objects, method makes it easy to build nanoparticles out of DNA.
Researchers look to bones and shells as blueprints for stronger, more durable concrete.
New super-resolution technique visualizes important role of short-lived enzyme clusters.