A study co-led by ICN2 reveals that ice is a flexoelectric material, meaning it can produce electricity when unevenly deformed. 

“Climate change has already caused more than 12,000 species to shift their homes across land, freshwater and the sea,” says the University of Adelaide’s Dr Chloe Hayes, who has published a study on the new approach.

Oregon State University has been selected to lead a national research center focused on making electronics more resilient to radiation, which could strengthen national security and boost U.S. competitiveness in space and defense technologies.

California pioneers artificial intelligence technologies, but can it power the many data centers AI requires?

A new innovation from Cornell researchers lowers the energy use needed to power artificial intelligence – a step toward shrinking the carbon footprints of data centers and AI infrastructure.

Scientists can now reliably chill specimens near absolute zero for over 10 hours while taking images resolved to the level of individual atoms with an electron microscope.

The University of Oxford is to lead a new £3 million project to develop novel cathode materials for future lithium-ion batteries.

He has been researching perovskite solar cells for over a decade: Prof. Nam-Gyu Park from Sungkyunkwan University (SKKU) in Seoul, winner of the Alexander von Humboldt Research Award, will visit the University of Stuttgart several times for shorter periods from September 2025.

MIT researchers have developed a technique that enables real-time, 3D monitoring of corrosion, cracking, and other material failure processes inside a nuclear reactor environment.

Today’s electric vehicle boom is tomorrow’s mountain of electronic waste. And while myriad efforts are underway to improve battery recycling, many EV batteries still end up in landfills.