Solid-state batteries promise longer range, faster charging, and improved safety, but durability has been a major hurdle.

Assistant Professor of Physics Ramesh Adhikari has been developing a bio-based energy source from materials that are right ...

Can you describe Addionics’ technology, including the difference between 2D and 3D battery structures? While most efforts to improve batteries focus on chemistry, Addionics focuses on physics. Our ...

Quantum batteries could one day revolutionize energy storage through what seems like a paradox – the bigger the battery, the faster it charges. For the first time, a team of scientists has now ...

The proof-of-concept still has a long way to go before it’ll end up in real devices, but it’s a great start. Reading time 3 minutes According to physicist Paul Davies, a tried-and-true “quantum” ...

Available to watch now, The Electrochemical Society in partnership with BioLogic, TA Instruments – Waters and Hiden Analytical, explores battery management systems for current and next-generation ...

From lithium-ion batteries to next-generation superconductors, the functionality of many modern, advanced technologies depends on the physical property known as intercalation. Unfortunately, it's ...

Resilient energy systems depend on reliable batteries. The lithium-ion (Li-ion) batteries powering our world must endure the steady strain of time, charge cycles, and environmental conditions that ...

The global economy is being pushed ever-more toward electrical mobility, with the proliferation of climate change, greenhouse gas emissions, and the growing need for renewable energy and a more ...

When the first wave of electric pickups hit the American market, the promise was massive: hulking, zero-emission workhorses ...