Singlet fission (SF) is an exciton amplification phenomenon in which two triplet excitons are generated from a singlet exciton produced by the absorption of a single photon in chromophores. A team of ...

Are you ready to be part of the next wave of energy innovators? The nuclear energy science certificate at the University of Wyoming offers a unique opportunity to dive deep into one of the most ...

Energy cannot be created or destroyed, yet the universe exists, raising the puzzle of whether time loops, first causes or ...

From global energy security to the race to net zero, the challenges are mounting, and breakthroughs in science are arriving faster than ever. Across solar, hydrogen, batteries and sustainable fuels, ...

For decades, fusion energy was often seen as a concept from science fiction—a promise that seemed forever on the horizon.

Researchers analyzed trade-related risks to energy security across 1,092 scenarios for cutting carbon emissions by 2060. They found that swapping out dependence on imported fossil fuels for increased ...

What if the most difficult part of keeping time wasn’t running the clock, but rather simply reading it? That counterintuitive ...

Described as the 'most important project in the history of mankind', the world's largest fusion energy project has reached ...

Emily Kwong and Regina Barber of NPR's Short Wave discuss new findings about the ocean of Saturn's moon Enceladus, the secrets behind chameleons' eye movements and the energy use behind AI computing.

A study led by the University of Oxford has identified a surprising source of entropy in quantum timekeeping—the act of ...

Minister-in-charge of Energy and Science & Technology Tan See Leng noted some countries in the region already have research reactors and have made "exhortations" about wanting to develop nuclear ...