Physicists record “lifetime” of graphene qubits
First measurement of its kind could provide stepping stone to practical quantum computing.
First measurement of its kind could provide stepping stone to practical quantum computing.
"Magic-angle" graphene named 2018 Breakthrough of the Year; first ionic plane and earliest evidence of hydrogen gas named to top 10 breakthroughs.
Technique from MIT could lead to tiny, self-powered devices for environmental, industrial, or medical monitoring.
Efficient method for making single-atom-thick, wafer-scale materials opens up opportunities in flexible electronics.
Fabrication technique could be integrated into manufacturing to make large-scale membranes.
Cost-effective method produces semiconducting films from materials that outperform silicon.
New bolometer is faster, simpler, and covers more wavelengths.
Scalable manufacturing process spools out strips of graphene for use in ultrathin membranes.
The fellowship supports top-tier researchers at U.S. universities whose high-risk, high-payoff work is of strategic importance to the Department of Defense.
When rotated at a "magic angle," graphene sheets can form an insulator or a superconductor.
Carbon nanotubes lower the transformation temperature of glassy carbon, possibly aiding manufacturers, MIT researchers report.
Researchers develop a novel technique using graphene to create solar cells they can mount on surfaces ranging from glass to plastic to paper and tape.
Material can filter nanometer-sized molecules at 10 to 100 times the rate of commercial membranes.
Platform may be used to explore avenues for quantum computing.
Used in filtration membranes, ultrathin material could help make desalination more productive.