Electrons can travel through silicon as waves, paving the way for smaller and more advanced devices. Scientists at the, Riverside, have discovered a method to control how electricity moves through ...

Infinix shattered smartphone design barriers July 25, 2025. The HOT 60 Pro Plus measures just 5.95mm thick, officially ...

All-inorganic perovskite materials exhibit exceptional thermal stability and promising candidates for tandem devices, while ...

FTIR spectroscopy and digital twin simulations enhance thin-film deposition in semiconductor manufacturing, ensuring ...

The research team led by Professor Jun He from Wuhan University has developed a universal metal-assisted epitaxy strategy to produce wafer-scale monolayer MoS2 films with specific substitutional ...

Using lasers to dope silicon is faster, cleaner, and more precise than traditional methods. It’s a glimpse into how high-tech manufacturing keeps pushing the limits of what chips can do.

Infinix's proprietary ultra-slim engineering overcomes conventional structural and battery limitations. Compared to the ...

The Infinix HOT 60 Pro+ redefines slim smartphone design with a groundbreaking 5.95mm ultra-slim body, setting a new global ...

UC Riverside scientists built a molecular silicon switch that controls electricity using quantum interference instead of miniaturization.

The PV device is based on a indium gallium phosphide absorber with an energy bandgap of 1.9 eV. It is intended for use in ...

Infinix today unveiled its latest HOT 60 Series lineup, including the HOT 60 Pro+, HOT 60 Pro, HOT 60, and HOT 60i. Infinix HOT 60 Pro+ redefines slim smartphones ...

Researchers at the University of California, Riverside have unlocked a hidden power within silicon, the backbone of modern electronics. Their findings could transform how future devices are built, ...