Researchers from the Technical University of Munich have been using GCS HPC resources to develop…
Browsing: Graphene
Graphene is a revolutionary material made of a single layer of carbon atoms arranged in a two-dimensional honeycomb lattice. It is incredibly strong, lightweight, and an excellent conductor of electricity and heat—properties that have sparked global interest across physics, materials science, and engineering. Since its isolation in 2004, graphene has been explored for use in everything from flexible electronics and high-speed transistors to energy storage, medical devices, and advanced composites. This page features the latest research and innovations in graphene, showcasing how this remarkable material is transforming science and technology.
Graphene can be used for ultra-high density hard disk drives (HDD), with up to a…
First commercial pour of engineered graphene concrete takes place in UK using Manchester technology. A…
Work on three graphene-based devices may yield new insights into superconductivity. MIT researchers and colleagues…
A new carbon form called the Biphenylene network has been synthesized, featuring a mix of…
Researchers at ETH Zurich have succeeded in turning specially prepared graphene flakes either into insulators…
Magnetic graphene enables efficient all-in-one spin injection and detection, powering future 2D spintronic devices while…
Rice University Lab’s Optimized Flash Process Could Reduce Carbon Emissions This could be where the…
Researchers at the Weizmann Institute of Science and the Massachusetts Institute of Technology discover a…
Graphene Flagship researchers have developed a new measurement standard for the analysis of graphene and…
Researchers improved micro-supercapacitor electrodes by doping cobalt oxide with tin and using graphene for support,…
Electron Microscopes Used to Precisely Dope Graphene Oak Ridge National Laboratory scientists demonstrated that an…
Using quantum tunneling in graphene, researchers created a highly sensitive terahertz detector that could transform…
Quantum science advancement could help lead to powerful spintronic devices, such as semiconductors and quantum…
Nanomaterial developments could lead to computers and phones running thousands of times faster. The tiniest…
Unconventional form of ferroelectricity could impact next-generation computing. MIT researchers and colleagues recently discovered an…
By combining ferromagnets and two rotated layers of graphene, researchers open up a new platform…
KIST researchers used graphene-based resonators to break pulsed-laser repetition rate records, A pulsed-laser repetition rate…