Caltech scientists found that magic-angle twisted graphene exhibits unconventional superconductivity, revealing two superconducting regimes that…
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.
A pioneering project to develop advanced pressure sensors for use in robotic systems could transform…
The discovery could inform the design of practical superconducting devices. When it comes to graphene,…
Scientists have discovered that moiré patterns in twisted bilayer composites can dramatically change material properties,…
Researchers developed a cheaper and faster method for producing high-quality graphene using carbon monoxide, simplifying…
Physicists propose a twin-universe model inspired by graphene layers, suggesting that interactions between two universes…
Microscopic measurement of wettability can be achieved at the molecular level using ‘vibrational sum-frequency generation…
Researchers at Nagoya University are studying magic-angle twisted bilayer graphene (MATBG), a potential superconductor with…
Have you ever wondered if bacteria make distinctive sounds? If we could listen to bacteria,…
Researchers developed a solar-thermally enhanced graphene supercapacitor that performs efficiently in low temperatures, boosting energy…
Researchers engineer electrically tunable graphene devices to study rare physics. The breakthrough could lead to…
Physicists find direct evidence of strong electron correlation in a 2D material for the first…
An international study, published in ACS Nano, has demonstrated an unprecedented level of control of…
A novel and better approach at detecting non-uniformities in the optical properties of two-dimensional materials…
First experimental realization of energetic ions driven by intense laser irradiating the world’s thinnest and…
Researchers from Kyoto University have developed nanodiamond-reinforced composite membranes that significantly improve hydrogen purification, making…
Advancement in single-atom layer graphene coatings improves accelerator electron source lifespans. Protective coatings are common…
The University of Manchester team observed the Schwinger effect in graphene, a process thought to…