In the mudflats along the Oregon coast, researchers have identified a bacterial species with astonishing properties. Named ...

Scientists have developed a new microscope that significantly improves the way heat flow in materials can be measured. This ...

The University of Vienna's study on graphene's stretchability offers groundbreaking insights, crucial for developing advanced ...

Austrian researchers have uncovered a new property of graphene as removing atoms creates waves that make it more stretchable ...

Discover how portable scanning electron microscopes are transforming fieldwork by providing real-time, non-destructive ...

Graphene is a "miracle material": mechanically extremely strong and electrically highly conductive, ideal for related ...

Czech-based electron microscope manufacturer TESCAN is undergoing a strategic shift, expanding into advanced semiconductor ...

XP Power develops new series of high voltage DC-DC converters with ultra-low noise power for scientific applications.

Real-time nanoindentation analysis uncovers localized failure mechanisms, transforming materials research and enhancing ...

Riley Carpenter ’25 found a well-rounded education at Santa Clara, designing cutting-edge superconducting thin-film dark ...

Researchers have figured out how to make wood much stronger by injecting it with iron minerals found in soil. This discovery, while still experimental, might eventually transform how we build ...

A new deep learning method called DLE-EM accelerates SEM imaging of geological materials by up to 16×, enabling large-scale, ...