Shining intense infrared laser pulses on titanium generates higher-frequency light, revealing how its optical properties change in different directions due to variations in electron movement and ...

Nanoparticle research presents wide scope for the development of novel solutions in the field of healthcare, cosmetics, optics and electronics. Altering their molecular and atomic states results in ...

The automotive applications of titanium and its alloys follow logically from high strength, low density and, low modulus, and they have excellent resistance to corrosion and oxidation. Titanium is ...

Nanoparticles possess not only excellent structural features but also very good functional features. The potential for nanoparticles in industrial applications, disease diagnoses, medical imaging and ...

Copper-titanium alloys are emerging as materials of significant interest due to their unique combination of high strength, excellent electrical conductivity, and corrosion resistance. These alloys ...

More than 1000 tonnes (2.2 million pounds) of titanium devices of every description and function are implanted in patients worldwide every year. Requirements for joint replacement continue to grow as ...

Researchers from Yokohama National University have developed a method to study how titanium's electron orientation and ...

A research team at Yokohama National University has developed a way to study how the orientation and behavior of electrons in titanium influence its physical characteristics. Their findings, published ...