Resolving the self-interaction correction paradox in molecular modeling
Local scaling self-interaction correction (LSIC) overcomes long-standing problems for accurate simulation of chemical reactions from start to finish.
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.
New device promises power generation in total darkness
Researchers create spiraling inorganic crystals that could hold unique properties.
Assessing the spin properties of electrons in advanced materials
Improved nanocatalyst used for hydrogen fuel production has record-high stability and activity.
Single-photon emission breakthrough opens a new path toward all-optical quantum computers and other quantum technologies.
Experiments reveal how electron interactions play a role in a new type of superconductor made up of just two sheets of twisted graphene.
Scientists discovered evidence of a long-sought quantum spin liquid state that can be controlled with magnetic fields
Modeling technique calculates material design in 23 hours instead of 2000 years