Scientists turn waste polyethylene into stronger, multifunctional materials using innovative two-step modular assembly ...

Academician Yu-Zhong Wang's team at Sichuan University proposed an innovative "LEGO" strategy, successfully upgrading and ...

Space is a hostile environment, with huge variations in temperature and ionizing radiation that degrades spacecraft surfaces. A research team has now developed a multifunctional, lightweight skin for ...

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 ...

Academician Yu-Zhong Wang's team at Sichuan University proposed an innovative "LEGO" strategy, successfully upgrading and recycling waste polyethylene ...

This study presents a flexible strategy to convert polyethylene waste into advanced materials, featuring tunable properties ...

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 ...

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 ...