Due to our ever-increasing reliance on electronics, researchers are always on the lookout for battery materials with more ...

Recently, a manufacturer of pouch-style batteries for EVs approached Spectro Physics to see if the company could help test ...

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 ...

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 ...

Every time you charge your phone or unplug an electric car, the battery’s internal parts subtly expand and contract. Over thousands of cycles, that motion adds up. According to new research, this ...

We are frequently writing about promising new chemistries for batteries. Cheaper and safer materials can make the adoption of clean transportation much faster. But an Israeli startup developed a ...

Electrochemical impedance spectroscopy (EIS) provides valuable insights into the physical processes within batteries – but how can these measurements directly inform physics-based models? In this ...

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 ...

Could a massless battery be possible? How could a device without mass store energy? If it were possible, what would that mean for the advancement of electric vehicles? These are the questions that ...

Researchers in the US have created a new solid-state lithium-metal battery that can charge and discharge over a record-breaking number of cycles at a high current density. The proof-of-concept device, ...