The quest for solar cell materials that are inexpensive, stable, and efficient leads to a breakthrough in thin film organic-inorganic perovskites.
Plutonium has more verified and accessible oxidation states than any other actinide element, an important insight for energy and security applications.
Easily manufactured membranes aid efficient chemical separation.
A new uranium-based metal-organic framework, NU-1301, could aid energy producers and industry.
A new polymer, created with a structure inspired by crystalline silicon, may make it easier to build better computers and solar cells.
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.
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.
