Fraunhofer IVV studies highlight the potential of peatland plants for sustainable packaging, reducing reliance on wood and ...

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

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

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

A recent article published in Nature Communications described a simultaneous solid-phase recycling and alloying method to address the limitations of traditional alloy recycling through melting. The ...

A new material for high density data storage can be erased and recycled in a more efficient and sustainable way, providing a potential alternative to hard disk drives, solid-state drives and flash ...

Understanding surface roughness is essential for manufacturers to ensure optimal performance and durability of precision components in various applications.

However, with the increasing use of additive manufacturing, the approach of blended design using both traditional and additive parts offers new opportunities using innovative thinking. We are finding ...

Researchers at the Massachusetts Institute of Technology have developed a technique to create a multilayered chip with alternating layers of high-quality semiconducting material grown directly on top ...