The first well-characterized materials containing berkelium differ from expectations
The Synchrotron Catalysis Consortium (SCC) celebrates 10 years of helping scientists.
Competition between two natural chemicals to coat and change atmospheric particles from fossil fuel combustion could improve accuracy of climate and air quality simulations.
New code allows bacteria to thrive in the lab and offers seven “slots” to program in designer proteins for industry.
Cell-membrane-like films precisely reconfigure to produce valuable materials by design.
Scientists experimentally validated the predicted damage mechanism for materials in nuclear energy environments.
Research uncovers the errors that prevent modeled precipitation variations from matching real-world results.
Researchers reveal the factors that affect the stability of semiconductors in solar fuel devices to aid the discovery of next-generation materials.
Simulations indicate that ultrafast laser pulses leave vortex-shaped patterns in their wake.
Scientists reveal conductive edges and thread-like flaws using a specialized imaging technique of interest for next-generation electronics.
Scientists identified defects responsible for detrimental blinking that limits nanoparticle use in LEDs, solar cells, and lasers.
Straining a thin film controllably allows tuning of the materials’ magnetic, electronic, and catalytic properties, essential for new energy and electronic devices.
