In the quest for next-generation energy, sensing, and pigment technologies, semiconducting metal oxides like titanium dioxide ...

Researchers at Johns Hopkins are using AI to improve processing conditions for Titanium alloys used in LPBF additive ...

The results challenge long-held assumptions about process limits, revealing a broader processing window for producing dense, high-quality titanium with customizable mechanical properties. The ...

A Johns Hopkins research team is using AI to enhance titanium alloys, improving strength and production speed for applications from deep-sea exploration to space travel. Manufacturing high-performance ...

Normally, titanium dioxide can clean water and air by using sunlight to trigger chemical reactions, a process called ...

Researchers have developed a new nanostructured material that, by harnessing the power of sunlight, can clear water of ...

The goal is to reduce the time required to design, test and validate new materials for space applications -- a challenge that closely aligns with APL's efforts to refine and accelerate titanium ...