Scientists show that grasslands are more sensitive to changes in the amount of moisture in the air than to changes in precipitation.
Atmospheric Radiation Measurement (ARM) observations provide clues on atmospheric contributions to an Antarctic melt event.
Scientists unlock the key to efficiently make a new class of engineering polymers.
Novel defect control in graphene enables direct imaging of trapped electrons that follow Einstein’s rules.
Molecular-level understanding of cellulose structure reveals why it resists degradation and could lead to cost-effective biofuels.
Lignocellulose-degrading enzyme complexes could improve biofuel production.
Defect spins in diamond were controlled with a simpler, geometric method, leading to faster computing.
Readily rotating molecules let electrons last, resulting in higher solar cell efficiency.
The arrangement of electrons in an exotic human-made element shows that certain properties of heavy elements cannot be predicted using lighter ones.
Modifying the internal structure of 2-D hybrid perovskite materials causes them to emit white light.
Scientists achieved thin films with structures virtually impossible via traditional methods.
Novel spin-polarized surface states may guide the search for materials that host Majorana fermions, unusual particles that act as their own antimatter, and could revolutionize quantum computers.
