Quantum emitters are nanoscale systems that can generate single photons or pairs of entangled photons on demand. These emitters are typically based on the optical transitions of individual quantum ...

Duan and co-workers developed a phosphorus-carbon-bridged cyclization strategy for MR-TADF emitters, addressing the challenge ...

The research is the first evaluation of large, global releases of methane. Stopping methane leaks from oil and gas “ultra-emitters” could provide billions of dollars in climate benefits, according to ...

Coal power is plunging in the U.S. because of competition from natural gas and renewable energy. But a fleet of large coal plants continues to operate profitably, amounting in a massive source of ...

"Acoustic rainbows" sound psychedelic. But the idea is no acid trip: By dispersing sound waves, noisy objects can actually be ...

A small number of “ultra-emitters” of methane from oil and gas production contribute as much as 12 percent of methane emissions from oil and gas production every year to the atmosphere every year — ...

A multi-institutional research team has clarified the energy levels of color centers at the SiO2/SiC interface, paving the way toward the development of scalable quantum technologies that use them as ...

When it comes to global warming, methane is a monster. It may represent only 11% of the share of greenhouse gasses emitted each year, but during its first 20 years in the atmosphere it is 80 times ...

Many next-generation quantum devices rely on single-photon emitters based on optically active defects in solids, known as color centers. Understanding their properties is fundamental to developing ...