Rice University calculations show double-walled nanotubes could be highly useful for solar panels and other nanoelectronics applications such as photovoltaics.
Voltage sags and interruptions can have a detrimental effect on manufacturing processes. Understanding how and why they happen is crucial.
Researchers from Rensselaer Polytechnic Institute have created a metal battery that relies on potassium instead of Lithium-ion, which could create more energy efficient batteries for consumers.
North Carolina State University engineers have demonstrated a flexible device designed to harvest the heat energy from the human body to monitor health.
Researchers at Purdue University have created technology designed to address the thickness issue for wearable power generation for Internet of Things (IoT) devices.
An MIT research team has devised a lithium metal anode that could improve the longevity and energy density of future batteries.
Stanford University researchers have developed an experimental device designed to provide a comfortable power source for technologies that bends and flexes with the human body.
The National Science Foundation is supporting Texas A&M researcher Dr. Matt Pharr in his work on developing improved rechargeable batteries.
Simulations by Rice University researchers shows too much stress in widely used lithium iron phosphate cathodes can open cracks and quickly degrade batteries.
Texas A&M researchers received $4.4 million to develop and demonstrate a cyber-resilient operation for power distribution systems with massively photovoltaic (PV) generation, such as rooftop solar panels.