Electronic and structure richness arise from the merger of semiconducting molecules of carbon buckyballs and 2-D graphene.
Tracking atoms is crucial to improving the efficiency of next-generation perovskite solar cells.
Genetically engineered switchgrass does not change soil chemistry, microbiology, or carbon storage potential.
Understanding assembly principles may inspire new approaches for making valuable products.
The CUORE experiment set the tightest limits yet on the rare decay of tellurium-130, providing insights into the nature of neutrinos.
This research offers new information to understand the role of microorganisms in elemental cycling in the Arctic.
Control over light-emitting properties of tiny semiconductor platelets may yield new opportunities for innovative optics utilizing quantum phenomena.
Engineers develop wires that penetrate neurons and measure their activity.
Tiny cages can trap and release inert argon gas atoms, allowing their further study and providing a new way to capture rare gases.
Defect-enhanced transport and complex phase growth are changing design rules for lithium-ion batteries.
Day-night changes in light and temperature power a low-cost material assembly that mimics biological self-copying.
Current generated when light hits a material reveals electrons behaving like an elusive particle.
