High Yield Biomass Conversion Strategy Ready for Commercialization
Researchers convert 80 percent of biomass into high-value products.
Researchers convert 80 percent of biomass into high-value products.
Switchgrass cultivated during a year of severe drought inhibited microbial fermentation and resulting biofuel production.
Common constituents prevent uranium from precipitating from liquids, letting it travel with groundwater.
Seven-year-study shows plant growth does not sustainably balance carbon losses from solar warming and permafrost thaw.
The force that enables nanosize crystals to grow could be used to design new materials.
Scarce compound is key for cellular metabolism and may help shape microbial communities that affect environmental cycles and bioenergy production.
Microbes leave a large fraction of carbon in anoxic sediments untouched, a key finding for understanding how watersheds influence Earth’s ecosystem.
New strategy significantly increases the production and secretion of biofuel building block lipids in bacteria able to grow at industrial scales.
Scientists capture excess light energy to produce fuel, essentially storing sunlight’s energy for a rainy day.
The quest for solar cell materials that are inexpensive, stable, and efficient leads to a breakthrough in thin film organic-inorganic perovskites.
New supercomputing capabilities help understand how to cope with large-scale instabilities in tokamaks.
For the first time, scientists modeled the spontaneous bifurcation of turbulence to high-confinement mode, solving a 35-year-old mystery.