Understanding surface roughness is essential for manufacturers to ensure optimal performance and durability of precision ...
Simultaneous recycling and alloying of aluminum scrap via friction extrusion yields high-strength materials, addressing ...
This study in Nature Communications reveals how xenon co-flow enhances step coverage in CVD for boron carbide films, ...
The design of tooling for the aerospace industry has long been the domain of traditional methods and processes.
MIT's innovative method for stacking semiconductors could revolutionize chip design, enabling higher performance and ...
Stability issues in perovskite solar cells affect their commercial viability. This article examines testing methods to ensure ...
A new material for high density data storage can be erased and recycled in a more efficient and sustainable way, providing a ...
Research on superhydrophobic MOF films reveals high water contact angles, offering insights for next-generation hydrophobic ...
Surface reconstruction via nano-polishing enhances the efficiency and stability of wide-bandgap perovskite solar cells, ...
The magnetic moment of the muon is an important precision parameter for putting the standard model of particle physics to the ...
This study presents poly(4-(p-styryl)-1-butanephosphonic acid) (sbPA) membranes as a stable, high-performance alternative for ...
The emerging polymer material from Flinders University revolutionizes data storage with its high capacity and quick data ...