Zinc–air batteries offer high theoretical energy density, intrinsic safety, and abundant raw materials, making them attractive for large-scale energy storage and flexible electronics. However, their ...

Researchers in China have developed new zinc–air batteries that maintain stable charge–discharge operation for ...

NASA's Carbothermal Reduction Demonstration (CaRD) project has completed an important step toward using local resources to support human exploration on the moon. The CaRD team performed integrated ...

Simulated ORR activities of Pt(111) and Pt1Ni1@Pt(111) based on pH-dependent microkinetic modeling and validation of synthesized Pt1Ni1/C: Quantitative microkinetic model predicted that the Pt1Ni1@Pt ...

Fuel cells and metal-air batteries are considered the future of clean energy technology, but they rely on one critical reaction—the oxygen reduction reaction (ORR)—to convert energy efficiently.

Machine learning algorithms that output human-readable equations and design rules are transforming how electrocatalysts for ...

Metal-nitrogen-carbon (M-N-C) single-atom catalysts are a promising type of catalyst that could help provide cost-effective alternatives to platinum-based ones. However, there are still some aspects ...

Researchers improve zinc-air battery tech with better stability and performance, offering a safer, cheaper alternative to traditional means.

A generative AI framework rapidly designs optimized fuel cell catalyst layers that deliver significantly better performance ...