A combined experimental and modeling approach contributes to understanding small proteins with potential use in industrial, therapeutic applications.
New design coats molecular components and dramatically improves stability under tough, oxidizing conditions.
A new chemical process converts a component of wasted wood pulp and other biomass into high-value pressure-sensitive adhesives.
A large-scale soil project uncovered genetic information from bacteria with the capacity to make specialized molecules that could lead to new pharmaceuticals.
Experimental warming treatments show how peatland forests may respond to future environmental change.
Scientists improve our understanding of the relationship between fundamental forces by re-creating the earliest moments of the universe.
U.S. and Korean scientists show how to find and use beneficial 3-D field perturbations to stabilize dangerous edge-localized modes in plasma.
New detector enables electron microscope imaging at record-breaking resolution.
New method can make films of atomically thin carbon that are over a foot long.
Scientists uncover a way to control terahertz radiation using tiny engineered particles in a magnetic field, potentially opening the doors for better medical and environmental sensors.
Particle flow patterns suggest even small-scale collisions create drops of early universe quark-gluon plasma.
CMS observes Higgs boson decays into bottom quarks, furthering our knowledge of how the particles that make up matter behave.
