Researchers say what was once just a concept is now a reality, thanks to efforts led by Dr Marcello Ferrera and his team of ...

From computer chips to image sensors in cameras, today's technology is overwhelmingly based on a semiconductor called silicon ...

New 3D printing technology achieves 130-fold better precision, allowing nanoscale control over strength and flexibility in printed materials.

Assessing powder flowability is crucial for industrial processes. Factors like cohesive strength and particle shape influence ...

Researchers show that precisely layering nano-thin materials creates excitons -- essentially, artificial atoms -- that can act as quantum information bits, or qubits.

High entropy alloys, with unique compositions, enhance material performance, making them crucial for high-stress applications ...

Strength, ductility and toughness are three very important, closely related material properties. The yield and ultimate ...

Inspired by the humble deep-sea sponge, RMIT University engineers have developed a new material with remarkable compressive ...

Researchers at the Royal Melbourne Institute of Technology created a new material based on the skeleton of a deep-sea ...

Incipient ferroelectricity, a previously overlooked property of FETs, may be to thank for the quicker, more sustainable devices. Incipient ferroelectricity refers to materials that show signs of ...

When mechanical and structural engineers design machines, bridges, and buildings, they calculate loads, stresses, and ...

Scientist Stephen Jesse will speak Tuesday at Friends of ORNL on "Building Materials and Devices with Atomic Precision: ...