Developing a highly active and acid-stable catalyst for water splitting could significantly impact solar energy technologies.
Scientists invent a new approach to creating ordered patterns of nitrogen-vacancy centers in diamond, a promising approach to storing and computing quantum data.
Antibody’s molecular structure reveals how it recognizes the virus.
Microbial enzymes create precursors of nylon while avoiding harsh chemicals and energy-demanding heat.
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.
Enhanced stability in the presence of water could help reduce smokestack emissions of greenhouse gases.
Research reveals that giant viruses acquire genes piecemeal from others, with implications for bioenergy production and environmental cleanup.
Researchers find a grass gene affecting how plants manage water and carbon dioxide that could be useful to growing biofuel crops on marginal land.
Plants and soil microbes may be altered by climate warming at different rates and in different ways, meaning vital nutrient patterns could be misaligned.
Teamwork provides insight into complicated cloud processes that are important to potential environmental changes in the Arctic.
Researchers made a sheet of boron only one atom thick with the potential to change solar panels, computers, and more.
Novel electrode materials have designed pathways for electrons and ions during the charge/discharge cycle.
