Scientists unlock the key to efficiently make a new class of engineering polymers.
An entirely human-made architecture produces hydrogen fuel using light, shows promise for transmitting energy in numerous applications.
Metal-organic frameworks with chains of iron centers adsorb and release carbon monoxide with very little energy input.
Novel defect control in graphene enables direct imaging of trapped electrons that follow Einstein’s rules.
A geospatial analysis determined the optimal distribution of sites needed to reliably estimate Alaska’s vast soil carbon.
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.
Advanced medical imaging techniques monitor real-time transport of radioisotopes through soil and waste forms.
Scientists use heat and mismatched surfaces to stretch films that can potentially improve device efficiencies.
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.
More frequent storms turn forests from carbon source to sink.
