
Speeding Up Catalysts for Energy Storage
Researchers develop the fastest synthetic catalyst for producing hydrogen gas, potentially leading to a new environmentally friendly, affordable fuel.
Researchers develop the fastest synthetic catalyst for producing hydrogen gas, potentially leading to a new environmentally friendly, affordable fuel.
Like water, neutrons seek their own level, and watching how they flow may teach us about how the chemical elements were made.
Researchers demonstrate a new technique that could lead to significantly higher power proton beams used to answer tough scientific questions.
A twisted array of atomic magnets were driven to move in a curved path, a needed level of control for use in future memory devices.
Simple, economical process makes large-diameter, high-performance, thin, transparent, and conductive foils for bendable LEDs and more.
Tracking movements of individual particles provides understanding of collective motions, synchronization and self-assembly.
More atomic bonds is the key for performance in a newly discovered family of cage-structured compounds.
Bottom-up synthesis of tunable carbon nanoribbons provides a new route to enhance industrial, automotive reactions.
Enhanced stability in the presence of water could help reduce smokestack emissions of greenhouse gases.
New material based on common iron ore can help turn intermittent sunlight and water into long-lasting fuel.
Research reveals that giant viruses acquire genes piecemeal from others, with implications for bioenergy production and environmental cleanup.