Researchers achieve the first complete 2D flash chip, which can be programmed in 20 nanoseconds with minimal energy ...

Atomic imaging shows graphene nanoribbons retain atomic structure and adjustable electronic alignment after transfer to graphene, offering a clear route toward stable, reproducible nanoelectronic ...

With $1.8 million from the National Science Foundation’s second Future of Semiconductor program (FuSe2), the University of Kansas and the University of Houston will collaborate to develop atomically ...

In a world-first, researchers from the Femtosecond Spectroscopy Unit at the Okinawa Institute of Science and Technology (OIST) have directly observed the evolution of the elusive dark excitons in ...

Scientists show wrinkles in 2D materials can lock electron spin with record precision, paving the way for ultracompact, energy-efficient spintronic devices. (Nanowerk News) Wrinkles can be an asset — ...

Read more A ray of light may be key to fighting cancer. Researchers with the University of Texas and University of Porto in ...

Shoubhik Das and colleagues at the University of Bayreuth in Germany have developed an atomically dispersed nickel-based photocatalyst (Ni₀.₁₆@f₂-gC₃N₄) that enables efficient and stable ...

Judy Wu, University Distinguished Professor of Physics & Astronomy at the University of Kansas, is leading project to produce atomically tunable memory resistors, dubbed “memristors,” for ...

XPANCEO, a deep tech company developing the next generation of computing through its first smart contact lenses, in collaboration with Nobel laureate Konstantin S. Novoselov (University of Manchester, ...

(a) In-plane magnetic field-dependent magnetoresistance (MR) of LSMO-LSAT film and 3CIO/20LSMO heterostructure at various temperatures. (b) Evolution of the insulating strength p(150K)/p(300K) with ...