Nearly two decades have passed since the advent of graphene, the two-dimensional variant of graphite,…
Browsing: 2D Materials
2D materials are substances with a thickness of just a few atoms, often only a single layer, offering unique physical, electronic, and chemical properties not found in their bulk counterparts. Graphene, a single layer of carbon atoms arranged in a hexagonal lattice, is the most well-known example, but the field has rapidly expanded to include materials like transition metal dichalcogenides, hexagonal boron nitride, and phosphorene. Because of their exceptional strength, flexibility, and conductivity, 2D materials are being explored for use in next-generation electronics, quantum computing, energy storage, and even biomedical devices. Research in this area is reshaping our understanding of material science at the atomic scale.
The first demonstration of a functional microchip integrating atomically thin two-dimensional materials with exotic properties…
Scientists have developed a superlattice of semiconductor quantum dots that functions like a metal, a…
By observing spin structure in “magic-angle” graphene, a team of scientists led by Brown University…
Scientists from Rice University and the University of Maryland lead efforts to overcome a major…
Graphene bridges enable tunable 2D materials, transforming quantum computing and sustainable energy technologies. Scientists from…
A new low-temperature growth and fabrication technology allows the integration of 2D materials directly onto…
Researchers at The University of Manchester have discovered record-high magnetoresistance in graphene, offering potential breakthroughs…
Revolutionizing Catalysis with Graphene A team of researchers led by Prof. Andre Geim from the…
A study has revealed that quantum geometry drives superconductivity in twisted bilayer graphene, where electrons…
Scientists identify quantum geometry as crucial to process. Researchers have produced new evidence of how…
Applying a quick electric pulse completely flips the material’s electronic properties, opening a route to…
New achievements of layered double hydroxides toward efficient, stable, fast oxygen evolution reaction. Scientists in…
Researchers discovered that two-dimensional ionic liquids capture CO2 more effectively due to their ordered structure,…
The discovery could inform the design of practical superconducting devices. When it comes to graphene,…
Researchers say the material has promising applications, such as advanced electronics and high-capacity batteries. Tulane…
New research shows that 2D materials, particularly van der Waals PN heterojunctions, can improve chip-integrated…
Researchers developed a cheaper and faster method for producing high-quality graphene using carbon monoxide, simplifying…