A new study from Columbia Engineering researchers reports on the strength of large-area graphene films…
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.
Using graphene with monolayers of transition metal dichalcogenides (TMDC), scientists from the University of Manchester…
Researchers at the University of Illinois at Urbana-Champaign have grown nanowires of the material indium…
By using folded DNA to control the nanostructure of inorganic materials, engineers manipulated molecules to…
A new study reveals that even graphene has weak spots, finding that junctions in polycrystalline…
EPFL scientists have combined monolayer MoS2 with graphene to build a flash memory prototype capable…
Using an artificial atomic nuclei fabricated on graphene, a team of researchers imaged the “atomic…
A newly published study shows that graphene is highly efficient in converting light to electricity,…
Scientists at UCLA have developed a new technique that uses a DVD burner to fabricate…
Researchers at Penn State have created triangular single layers of tungsten disulfide that exhibit unusual…
Scientists at the University of Oxford have developed a new way of growing graphene without…
Researchers at Rice University have shown the ability to pattern a conductor (graphene) and insulator…
By developing a method to reversibly control the crumpling and unfolding of large-area graphene sheets,…
A newly published study has shown that graphene oxide can rapidly remove some of the…
Graphene can support 50,000 times its own weight and can spring back into shape after…
Finding that large membranes engineered from single sheets of graphene allow small molecules to pass…
Researchers at Brown University have developed a cheaper and more durable catalyst using graphene, cobalt,…
MIT researchers are working to develop an electron-cloaking material that would “hide” particles from passing…