A team of engineers at Fudan University has successfully designed, built and run a 32-bit RISC-V microprocessor that uses ...

It can only add single bits at a time and is limited to kilohertz clock speeds, but it is capable of executing the full ...

The race beyond silicon is already underway. As these emerging semiconductor materials become more viable, they will enable ...

Graphene — a single layer of carbon atoms arranged in a honeycomb lattice — is already attracting interest for its various applications in electronics and optoelectronics, including its use as ...

Graphene, and the carbon nanotubes that can be made from it, has incredible potential for a wide variety of industries. Credit: KTSDESIGN/Science Photo Library via Getty Images The word ...

Modern cancer treatments have evolved beyond traditional chemotherapy to include targeted approaches such as immunotherapy, ...

Direct growth or deposition on industrial-scale silicon wafers should be targeted for nanoelectronics, but significant progress has also been made in the epitaxial growth of graphene layers on ...

This is a blog by Dr Cinzia Casiraghi, a Reader in Graphene and Carbon Nanostructures at The University of Manchester. She is also the Chairperson of Graphene Week 2015 and was the recent recipient of ...

Graphene, a single layer of carbon atoms arranged in a two-dimensional honeycomb lattice, is known for its exceptional ...

Graphene is the name for a honeycomb sheet of carbon atoms. It is the strongest known material, yet it is also stretchy. It can conduct electricity 100x better than silicon and heat 10x better than ...

particularly those based on silicon or silicon oxide, and cathodes based on LFP, LMFP and NMCs. Supercapacitor electrodes could also benefit from the use of graphene dispersions. Product ...