AI can find hidden cracks inside machines and buildings in real time, helping prevent accidents and keep industries safe.

System reliability and safety are paramount across industries such as semiconductors, energy, automotive, and steel, where ...

QUT researchers have identified why some materials can block heat more effectively, which is a key feature for energy ...

Atomic-scale defects in crystals can make excellent quantum memories that can be written and read out using lasers, and could form the basis of future quantum communications and computing systems.

Scientists can now create and control tiny internal defects in ultra-thin materials, enabling new properties and potential breakthroughs in nanotechnology.

(Nanowerk Spotlight) Scientists have sought to leverage atomic defects to enhance electrocatalytic performance for clean energy applications. However, the inability to precisely study defects' ...

image: THE INTRODUCTION OF DEFECTS INTO ELECTRODE MATERIALS FOR METAL-BASED BATTERIES IS AN EFFECTIVE STRATEGY TO IMPROVE BATTERY PERFORMANCE, DUE TO DEFECTIVE CATALYSTS HAVE THE ADVANTAGES OF HIGH ...

• The underlying migration mechanism of Mg 2+ in cathode materials and roles of defects in Mg 2+ migration in cathode materials were studied. • Applications of defect engineering to Mg 2+ migration in ...

A recent review article published in Advanced Materials explored the potential of artificial intelligence (AI) and machine learning (ML) in transforming thermoelectric (TE) materials design. The ...

Bump scaling is pushing defect inspection to the limit. What comes next and why it matters.