The degree of graphitization in graphite anodes influences battery efficiency, making it a critical factor in the development ...

A breakthrough copper catalyst converts CO2 to acetaldehyde efficiently, presenting a scalable and eco-friendly alternative ...

Understanding particle shape is crucial for accurate characterization, influencing flow and compaction in manufacturing ...

The research introduces a cathode that combines single-atom Zn and molybdenum carbide, significantly improving iodine redox ...

A novel technique from Cornell University recovers gold from electronic waste, transforming CO2 into valuable chemicals with ...

Thermal processing technologies, including drying, curing, and annealing ovens, are integral to battery manufacturing. These ...

This study presents a biocompatible artificial muscle that replicates natural muscle functions, enhancing prospects for ...

Innovative thermal switches using cerium oxide demonstrate superior performance, paving the way for advancements in waste ...

This research introduces a high-performance self-charging energy storage device, utilizing transition metal-based materials ...

Innovative chlorination method using iron and sulfur catalysts at Rice University offers precise control and reduces ...