In a bold challenge to silicon s long-held dominance in electronics, Penn State researchers have built the world s first ...

A research team led by Professor Huang Xingjiu at the Hefei Institutes of Physical Science of the Chinese Academy of Sciences ...

A popular 2D active material, molybdenum disulfide (MoS2), just got a platinum upgrade at an atomic level. A study led by ...

The Korea Research Institute of Chemical Technology's new MoS2 coating boosts the lifespan of anode-free solid-state ...

Silicon is the kingpin when it comes to semiconductor technology that’s used in smartphones, computers, electric vehicles, ...

In the semiconductor industry, silicon has long dominated the manufacturing of smartphones, computers, and electric vehicles.

Saptarshi Das and Subir Ghosh’s research represents a major leap toward building thinner, faster and more energy-efficient ...

A team of engineers at Fudan University has successfully designed, built and run a 32-bit RISC-V microprocessor that uses molybdenum disulfide instead of silicon as its semiconductor component.

Gaze into the temporal distance and you might spot the end of the age of silicon looming somewhere out there, as a research ...

Fix point defects in semiconductors to enable smaller, faster chips with better yield—using MoS₂ at industry-safe ...

On Wednesday, a team of researchers from China used a paper published in Nature to describe a 32-bit RISC-V processor built using molybdenum disulfide instead of silicon as the semiconductor.

Molybdenum disulfide has recently attracted attention as a low-power semiconductor material that increases the integration density of semiconductor chips and minimizes leakage current, thereby ...