Academician Yu-Zhong Wang's team at Sichuan University proposed an innovative "LEGO" strategy, successfully upgrading and recycling waste polyethylene (PE) into high-performance materials with ...

BEER-SHEVA, Israel, July 15, 2024 – Researchers at Ben-Gurion University of the Negev's Physical AI (PAI) Lab, led by Dr. Aslan Miriyev, have developed groundbreaking multifunctional material-sensors ...

Scientists at Rice University and University of Houston have developed an innovative, scalable approach to engineer bacterial cellulose into high-strength, multifunctional materials. Using a spinning ...

The EU-funded DOMMINIO project (Digital method for improved Manufacturing of next-generation MultIfuNctIOnal airframe parts) began in January 2021 and will be completed in September 2024. Its goal is ...

Engineers have unveiled an encodable multifunctional material that can dynamically tune its shape and mechanical properties in real time. Inspired by the remarkable adaptability observed in biological ...

A team of academic researchers led by Yu-Zhong Wang at Sichuan University has introduced a "Lego" strategy to address the challenges of recycling and upgrading waste polyethylene (PE). This approach ...

Researchers in China claim to have achieved the highest efficiency ever reported for perovskite solar cells based on “alternative” hole transport materials. The device reportedly offers improved hole ...

Responsive materials that morph and adapt like biological systems are non-trivial to design and manufacture. Researchers developed a co-design framework that unites AI, physics, and 3D printing into ...

Ars Technica has been separating the signal from the noise for over 25 years. With our unique combination of technical savvy and wide-ranging interest in the technological arts and sciences, Ars is ...