The LIG based metasurface with a size of 5 × 5 cm 2 can be rapidly prepared in just 5 minutes under ambient atmosphere. The continuous modulation between wave transmission/shielding in an ultra-wide ...

WEST LAFAYETTE, Ind. — In 2004, researchers discovered a super thin material that is at least a 100 times stronger than steel and the best known conductor of heat and electricity. This means that the ...

A research team has developed a large-area suspended graphene and irradiated the thinnest graphene target with an ultra-intense laser to realize high-energy ion acceleration. Their findings will be ...

Laser-scribed graphene is a versatile technique that involves the use of a high-power laser to directly pattern and reduce graphene oxide (GO) films into graphene structures under ambient conditions ...

A research team in Kiel has demonstrated a previously unknown effect in graphene—a single layer of carbon atoms whose discovery earned the 2010 Nobel Prize. For years, graphene has been seen as a ...

Finland-based graphene-photonics company Emberion, which spun off from Nokia in 2016, is exhibiting several eye-catching products later this month at LASER World of PHOTONICS in Munich, which runs ...

A new technical paper titled “Hybrid tungsten oxyselenide/graphene electrodes for near-lossless 2D semiconductor phase ...

From the sound of reports in the press, graphene is the miracle material that will cure all the world’s ills. It’ll make batteries better, supercharge solar panels, and revolutionize medicine. While a ...

Passive mode-locked technology utilizes saturable absorbers’ nonlinear absorption effect to regulate the cavity’s loss and phase to generate mode-locked pulses. Graphene has a unique energy bandgap ...

Graphene isn’t easy to produce at scale. But making small batches of graphene is doable in a few ways. [Robert Murray-Smith] decided to try producing “flash graphene.” This requires a big capacitor ...