![](/-/media/bes/images/highlights/2017/10/BES-2017-10-m-lrg.jpg?h=618&w=1983&la=en&hash=AB3CC2093AF88931D18994A61797B1F6E864A41E6321C1E676749621208FEBED)
Bending the Laws of Thermodynamics for Enhanced Material Design
Wide metastable composition ranges are possible in alloys of semiconductors with different crystal structures.
Wide metastable composition ranges are possible in alloys of semiconductors with different crystal structures.
Built from the bottom up, nanoribbons can be semiconducting, enabling broad electronic applications.
Direct writing of pure-metal structures may advance novel light sources, sensors and information storage technologies.
Scientists reveal structural, chemical changes as nickel-cobalt particles donate electrons, vital for making better batteries, fuel cells.
Swirling soup of matter’s fundamental building blocks spins ten billion trillion times faster than the most powerful tornado, setting new record for “vorticity.”
New studies of behaviors of particles containing heavy quarks shed light into what the early universe looked like in its first microseconds.
Demonstrating the microfluidic-based, mini-metagenomics approach on samples from hot springs shows how scientists can delve into microbes that can’t be cultivated in a laboratory.
First complete picture of genetic variations in a natural algal population could help explain how environmental changes affect global carbon cycles.
Genome-wide rice studies yield first major, large-scale collection of mutations for grass model crops, vital to boosting biofuel production.
The newly upgraded CEBAF Accelerator opens door to strong force studies.
Scientists create widely controllable ultrathin optical components that allow virtual objects to be projected in real environments.
New materials could turn water into the fuel of the future.