Fluorographene: The world's thinnest insulator
(PhysOrg.com) -- The remarkable properties of graphene and Teflon have been combined in a new material by the winners of this years Nobel Prize for Physics.
(PhysOrg.com) -- The remarkable properties of graphene and Teflon have been combined in a new material by the winners of this years Nobel Prize for Physics.
Nanomaterials
Nov 4, 2010
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When the COVID-19 pandemic shut down experiments at the Department of Energy's SLAC National Accelerator Laboratory early last year, Shambhu Ghimire's research group was forced to find another way to study an intriguing research ...
Quantum Physics
Oct 22, 2021
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299
In recent years, physicists have discovered materials that are able to switch their electrical character from a metal to an insulator, and even to a superconductor, which is a material in a friction-free state that allows ...
Superconductivity
Mar 17, 2022
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1497
Exotic materials called topological insulators, discovered just a few years ago, have yielded some of their secrets to a team of MIT researchers. For the first time, the team showed that light can be used to obtain information ...
General Physics
Dec 5, 2011
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(Phys.org) —Graphene has become an all-purpose wonder material, spurring armies of researchers to explore new possibilities for this two-dimensional lattice of pure carbon. But new research at MIT has found additional potential ...
Nanophysics
Dec 22, 2013
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The discovery of what is essentially a 3D version of graphene – the 2D sheets of carbon through which electrons race at many times the speed at which they move through silicon - promises exciting new things to come for ...
Nanophysics
Jan 16, 2014
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A team of physicists has mapped how electron energies vary from region to region in a particular quantum state with unprecedented clarity. This understanding reveals an underlying mechanism by which electrons influence one ...
Quantum Physics
Jan 13, 2020
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Topological superconductors are superconducting materials with unique characteristics, including the appearance of so-called in-gap Majorana states. These bound states can serve as qubits, making topological superconductors ...
A new method that precisely measures the mysterious behavior and magnetic properties of electrons flowing across the surface of quantum materials could open a path to next-generation electronics.
General Physics
Oct 13, 2017
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(Phys.org) —Researches have uncovered "smoking-gun" evidence to confirm the workings of an emerging class of materials that could make possible "spintronic" devices and practical quantum computers far more powerful than ...
General Physics
Nov 13, 2014
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