Monash University
Monash University engineers have demonstrated improvements in the fatigue life of high strength aluminium alloys by 25 times - a significant outcome for...
Adding polymers and fireproofing to a battery's current collectors makes it lighter, safer and about 20% more efficient
DOE/SLAC National Accelerator Laboratory
In an entirely new...
Ion-selective electrocatalysis on conducting polymer electrodes -- improving the performance of redox flow batteries
Linköping University
Researchers at the Laboratory of Organic Electronics, Linköping University, have...
Artificial intelligence (AI) can become more efficient and reliable if it is made to mimic biological models; new approaches in AI research are hugely...
University of Bristol
Intelligent cameras could be one step closer thanks to a research collaboration between the Universities of Bristol and Manchester who have developed...
Manufacturing safer, more powerful batteries that use geopolitically stable resources requires solid electrolytes and replacing lithium with sodium. A chemical solution is now being...
Development of a highly efficient and durable electrocatalyst for water electrolysis that will lead to cost-efficient hydrogen production. Trace amounts of titanium doping on...
University of Science and Technology of China
Electric vehicles are gaining in popularity, but their long charging time is a significant detraction for potential customers....
Graz University of Technology
Limited safety, sustainability and recyclability are key drawbacks of today's lithium-ion battery technology, along with restricted availability of starting materials (e.g....
