Researchers create novel metallabiphenylene analogues, advancing a key concept in organic chemistry.
Material traps noble gases at above-freezing temperatures, a difficult and important industrial challenge.
A next-generation plastic can be recycled again and again into new materials of any color, shape, or form.
Researchers have engineered an all-solid state nanolaser system that can operate continuously at room temperature.
Collaboration between experiment and theory expands fundamental understanding of the chemistry of exotic radioactive heavy elements.
A new photoconductive metasurface paves the way for smaller, more efficient terahertz detectors.
Researchers have developed new artificial intelligence methods to enable “autonomous experimentation.”
New one-step method creates hollow nanostructures that can carry and deliver nanoscale cargos for medicine and other applications.
Local scaling self-interaction correction (LSIC) overcomes long-standing problems for accurate simulation of chemical reactions from start to finish.
A novel single-step process spontaneously organizes layered light-harvesting structures.
Optical control allows physicists to simulate and understand interactions between atoms.
Research demonstrates a new approach to refrigeration using light transport at the nanoscale.
