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Mass spectrometry and high-performance computing combined, allowing scientists to study proteins that link internal processes to community attributes.
Natural carbon dioxide production from deep subsurface soils contributes significantly to emissions, even in a semiarid floodplain.
New analysis uses detection and attribution methods to establish multiyear trends of vegetation growth in northern-extratropical latitudes.
First atomically thin, halide perovskite sheets could be an alternative to graphene for future electronics.
Microporous polymer separator prevents specific molecules from crossing battery and causing degradation and shorter lifetimes.
Squeezing spheres together creates a protective barrier that combines impressive conductivity with protection from short circuits.
Novel self-assembly can tune the electronic properties of graphene, possibly opening doors for tiny, powerful electronic devices.
Nanoscale metallic cavities coupled to semiconductor materials can dramatically change the characteristics of light from a laser.
Implanted helium ions “tuned” complex behaviors—enabling design of new materials for efficient electricity storage and testing theories.
Meticulously designed oxide thin films exhibit well-defined ON/OFF states that could be used in small, energy-efficient electronics.
Predicting nanosystems with unanticipated properties can advance next-generation solar panels and electronics.
Superacid treatment of semiconductors could lead to atomically perfect transparent displays and energy-efficient computer chips.
