Exploring how passion, people, and culture can help engineers turn specialization into meaningful, fulfilling careers.

Unlike their mid-century ancestors, today's plastics are being reimagined through ultra-thin layering at the molecular level.

Materials informatics combines data analytics and engineering design, streamlining material development and enhancing performance through AI integration.

What if a doctor could inject an electricity-conducting liquid into the body, let it temporarily solidify to record nerve ...

Penn State researchers created seven new high-entropy oxides by removing oxygen during synthesis, enabling metals that normally destabilize to form rock-salt ceramics. Machine learning helped identify ...

Rice materials scientist and neuroengineer Christina Tringides has been named a Distinguished Scientist by the Sontag ...

As the 'Problem Solver' of systems, IPE maximizes productivity by applying Lean and Six Sigma concepts. According to the NIRF ...

The 19th International Conference on Advanced Materials (ICAM) opened at the University of Ghana, with a call on participants to explore innovative scientific solutions that will help to restore sanit ...

The Wearable Imaging for Transforming Elderly Care (WITEC) collaborative research project aims to develop the world's first ...

Apart from technical proficiency, Mechanical Engineering students must also develop emerging skills aligned with digitisation ...

Penn State scientists discovered seven new ceramics by simply removing oxygen—opening a path to materials once beyond reach.

In hydrogen production catalysts, water droplets must detach easily from the surface to prevent blockage by bubbles, allowing for faster hydrogen generation. In semiconductor manufacturing, the ...