Long Considered Impossible in Physics: Nonlinear Circuit Harvests Clean Power Using Graphene
The discovery overturns more than a century of physics orthodoxy by identifying a new form of energy that can be extracted from ambient heat using…
The discovery overturns more than a century of physics orthodoxy by identifying a new form of energy that can be extracted from ambient heat using…
New study captures the behavior of interacting electrons that give rise to insulating states, addressing a key unsolved puzzle in the field. Princeton-led researchers have…
A new technique developed at Columbia offers a systematic evaluation of twist angle and strain in layered 2D materials. The emerging field of twistronics is…
Scientists at The University of Manchester’s National Graphene Institute have discovered new physics in graphite through the application of twistronics, revealing a 2.5-dimensional mixing of…
New research uses protons to shine a light on the structure and imperfections of this two-dimensional wonder material. Graphene is a two-dimensional wonder material that…
A breakthrough study by the University of Washington has shown that graphite, a 3D material, can be manipulated to possess properties of its 2D counterpart,…
A group of scientists, headed by researchers from Brown University, have discovered a solution to a longstanding obstacle in the realm of two-dimensional electronics, by…
MIT researchers have found a new mechanism by which the superconductor iron selenide transitions into a superconducting state. Unlike other iron-based superconductors, iron selenide’s transition…
Researchers have uncovered new properties in excitons of tungsten disulfide semiconductors, allowing them to track different quantum states with a novel technique. These findings question…
A team of scientists has published an article discussing the utilization of terahertz (THz) emission spectroscopy to reveal the properties of emerging materials, such as…
Nearly two decades have passed since the advent of graphene, the two-dimensional variant of graphite, which has significantly amplified interest in 2D materials due to…
The first demonstration of a functional microchip integrating atomically thin two-dimensional materials with exotic properties heralds a new era of microelectronics. The world’s first fully…
Scientists have developed a superlattice of semiconductor quantum dots that functions like a metal, a significant leap forward in harnessing quantum dots’ full potential. The…
By observing spin structure in “magic-angle” graphene, a team of scientists led by Brown University researchers has found a workaround for a long-standing roadblock in…
Scientists from Rice University and the University of Maryland lead efforts to overcome a major barrier. Despite being recognized as some of the strongest substances…
Scientists from CiQUS, ICN2, University of Cantabria, DIPC and DTU join forces to develop a versatile method for building brick-by-brick carbon nanocircuits with tunable properties….
A new low-temperature growth and fabrication technology allows the integration of 2D materials directly onto a silicon circuit, which could lead to denser and more…
Researchers at The University of Manchester have discovered record-high magnetoresistance in graphene, offering potential breakthroughs in understanding strange metals and applications in magnetic sensors. In…