Rice University researchers turned adhesive tape into a silicon oxide film improve lithium metal technology and make them last longer.
University of Michigan researchers have made plastic conductive while also making it more transparent, which can improve large touchscreens, LED light panels and window-mounted infrared solar cells.
North Carolina State University researchers have developed a computational model that shows how changes in the nanostructure of materials affect their conductivity, which could help improve energy storage devices for many electronic devices.
Researchers have found a way to advance safer rechargeable batteries with spectrometry. Their findings could improve batteries used for consumer electronics such as laptops and cellphones.
Researchers at the University of Michigan, Purdue University, and the University of Liverpool in the UK have figured out a way to measure how many hot charge carrier are present in a metal nanostructure for improved energy storage and conversion.
Researchers at Georgia Tech, ETH Zurich and Oak Ridge National Laboratory have discovered particles can change a nanoscale hollow structure formation, which could be beneficial for lithium-ion battery storage.
MIT researchers have developed a roll-to-roll production method could enable lightweight, flexible solar devices and a new generation of display screens.
Industrial controls that provide built-in robustness to voltage sags already have capabilities installed and don’t require after-the-fact voltage sag mitigation for defense against the effects of voltage sags.
System integrators can provide emergency support for automation troubleshooting to shorten or prevent downtime, improve quality and save money as manufacturing restarts or continues during the COVID-19 pandemic.
University of Michigan researchers are leading a project to develop virtual copies of nuclear reactors with digital twins, which could enable smarter maintenance for current reactors and more automation for advanced reactors.