Scientists apprehended the atomic-scale, microscopic mechanism that limits light emission in LED lighting.
Computer-designed molecular complex can be used in halogen-free electrolytes for batteries with superior performance.
Recycling waste from biofuel production could lower cost for future biorefineries.
A novel E. coli fatty acid biosynthesis system could more efficiently convert biomass to desired products.
New findings will help extend the lifetime of catalysts used to process bio-oils in liquid systems.
Researchers use engineered bacteria to simplify biofuels production, potentially lowering cost.
Findings could aid contaminant management efforts at former weapons production and industrial processing sites.
Junctions between conductive graphene and insulating nanotubes could lead to faster electronics and computers.
The orientation-dependent thermal properties of black phosphorous could be used to keep microchips cool and improve their efficiency.
Theoretical modeling of energy loss in solar cells may lead to more efficient materials to convert sunlight to electricity.
Predictable assembly of protein building blocks result in a new class of porous materials, with potential uses ranging from efficient fuel storage to practical carbon capture and conversion.
Atomic-scale simulations predict how to use nanoparticles to increase hydrogen production.
