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Microbes often evolve and work together to thrive in no oxygen situations, hinting at how carbon and energy flow just below soils and sediments.
Findings could aid contaminant management efforts at former weapons production and industrial processing sites.
Discovery of a new enzyme system sheds further light on a microbe’s ability to efficiently break down inedible plant matter for conversion to biofuels and biobased chemicals.
New findings will help extend the lifetime of catalysts used to process bio-oils in liquid systems.
Identifying enzyme instigators will speed the ability to manipulate plant cell wall structures for renewable feedstocks.
Glaciers in cold, dry ecosystems respond differently to changes in climate than glaciers in warmer climates.
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.
A low-cost, stable oxide film is highly conductive and transparent, rivaling its predecessors.
Hollow shape-selected platinum nanocages represent a new class of highly active catalysts.
A new approach to investigating green fluorescent protein provides a vital tool for unraveling molecular-level details of processes important in biology and light harvesting for energy use.
Herbivore digestion involves a large variety of enzymes that break woody plants into biofuel building blocks.
Researchers develop a new process for annotating cellulose-degrading enzymes.
