How yeast partition carbon into a metabolite may offer insights into boosting production for biofuels.
Ultrafine aerosol particles produce bigger storm clouds and more precipitation than larger aerosols in pristine conditions.
Scientists explore how drought-tolerant plants communicate to nearby microorganisms, suggesting ways to engineer more resilient bioenergy crops.
Distortion of water droplet surface may increase the likelihood of the droplet freezing.
Researchers discover how certain bacteria may safeguard plant growth during a drought, making way for strategies to improve crop productivity.
The mechanism responsible for creating intense magnetic fields in laser-driven plasmas also helps tear the fields apart.
Unexpected molecular interactions involving water clusters have a subtle, yet profound, effect on extractants picking their targets.
New method takes a snapshot every millisecond of groups of light-scattering particles, showing what happens during industrially relevant reactions.
The bacteria from cows and other ruminants’ digestive systems could provide insights for converting corn stover and other biomass into fuels.
A new platform melding microfluidics and robotics allows more in-depth bioanalysis with fewer cells than ever before.
How microbial communities adjust to nutrient-poor soils at the genomic and proteomic level gives scientists insights into land use.
Analyses reveal how a microbe breaks down lignin, providing a better understanding useful to making biofuels.
