Manipulating Earth-Abundant Materials to Harness the Sun’s Energy
New material based on common iron ore can help turn intermittent sunlight and water into long-lasting fuel.
New material based on common iron ore can help turn intermittent sunlight and water into long-lasting fuel.
A newly discovered metabolic process linking different bacteria in a community could enhance bioenergy production.
Understanding how brown rot fungi degrade wood could lead to new tools for more efficient biofuel production.
For the first time, scientists analyzed the genetic material of surface microbes that are colonizing the deep subsurface, where they are adapting and thriving.
New model reveals the significant role of microbes in oceanic nutrient and energy.
Scientists offer new insights into how the source of electrons, or cathode, fails.
Insights into how ancient marine organisms formed shells could improve climate model accuracy.
Scientists advance the precision controlled synthesis of gold nanocrystals, which could create new catalysts that improve industrial energy efficiency.
Study models soil-pore features that hold or release carbon dioxide.
On the path to ultra-stable, low-cost, earth-abundant zinc-manganese oxide rechargeable batteries for the electric grid.