In a significant development, researchers have created a new graphene nanostructure with adjustable properties by connecting graphene strips using adaptable “bridges.” This discovery has the potential to influence quantum computing…
Search Results: graphene (499)
…atomic layer of molybdenum atoms, this material stands out due to its metallic nature. Two-dimensional materials like graphene show fascinating properties such as superconductivity, extraordinary strength, and exotic quantum phenomena….
…journal Matter. Credit: Gustavo Raskoksy/Rice University The Secret to MAC’s Strength: Composite Structure Like graphene, MAC is also a 2D or single atom-thick material. But unlike graphene where atoms are…
MIT researchers have discovered a compound with properties similar to graphene, some of which complement this highly praised material. Just recently Rice University shared news of their 2-D Boron Nanotubes…
Chalmers University of Technology in Sweden led an international team that first demonstrated graphene’s heat-dissipating effect on silicon-based electronics. Credit: Chalmers University of Technology A new discovery shows that graphene…
This schematic of a graphene liquid cell shows multiple liquid pockets containing single nanoparticles, dimers composed of dsDNA bridges in different lengths, and trimers. Credit: Lawrence Berkeley National Laboratory Through…
…nanoscale device consists of a flake of graphene (a one-atom-thick layer of carbon) which is protected from the environment by stacked insulating layers of boron nitride. Electrons inside the graphene…
Conventional metal electrode technologies (top left) are opaque, obstructing views of underlying neural tissue. DARPA’s RE-NET program has developed new graphene sensors that are electrically conductive but only 4 atoms…
…new research combines those abilities with the Tour lab’s 2009 method to unzip nanotubes into conductive graphene nanoribbons. Researchers have come to realize that graphene’s potential as a catalyst doesn’t…
Researchers found that heat propagates in a wave-like manner in graphene and other 2D materials, providing valuable insights for nanoscale circuit cooling and potential silicon replacements in electronics. Credit: École…
…made of nitrogen-doped graphene with individual cobalt atoms that activate the process. (Credit: Tour Group/Rice University) New research from Rice University reveals that graphene doped with nitrogen and augmented with…
Denoising algorithm improves Raman scanning speed. Credit: ©Science China Press Graphene is always raising high expectations, as a strong, ultrathin, two-dimensional material that could also be the basis for new…
…worked with building blocks of bilayer graphene: two sheets of graphene naturally layered together. They stacked one bilayer on top of another — for a total of four graphene layers…
…of graphene, researchers at the University of Sussex have made the nanomaterial behave like a transistor, and have shown that when a strip of graphene is crinkled in this way,…
Quantum tunneling. Credit: Daria Sokol/MIPT Press Office Using quantum tunneling in graphene, researchers created a highly sensitive terahertz detector that could transform wireless communication and sensing technologies. Scientists from MIPT,…
An illustration of positively charged holes interacting with negatively charged electrons between two sheets of graphene to form a bosonic pair. Credit: Cory R. Dean, Columbia University Using a graphene-based…
Researchers synthesized 2D cuprous iodide stabilized in a graphene sandwich, marking the first example of a material not typically found in normal laboratory conditions. A new study has led to…
…of Physics, University of Basel and Scixel Friction Defies Coulomb’s Law in Graphene-Platinum Structures Researchers from Basel and Tel Aviv discovered that friction varies with speed in specific graphene structures…