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Beyond the “Sound Barrier” to Get the Heat Out
Neutron scattering reveals supersonic particles that carry heat and may improve electronics and sensors.
Read more about Beyond the “Sound Barrier” to Get the Heat Out
Neutron scattering reveals supersonic particles that carry heat and may improve electronics and sensors.
Read more about Beyond the “Sound Barrier” to Get the Heat OutDetailed view of atoms opens doors for new designs to convert atomic displacements to electrical energy.
Read more about New Insights into a Long-Standing Debate About Materials that Turn Motion into ElectricityResearchers design self-assembling nanosheets that mimic the surface of cells.
Read more about Tiny, Sugar-Coated Sheets Selectively Target PathogensInsight about energy flow in copper-based material could aid in creating efficient molecular electronics.
Design principles lead to a catalyst that splits water in a low pH environment, vital for generating solar fuels.
Theorists show how a new quantum device could control a chemical reaction remotely, changing our understanding of how reactions can work.
With user facilities, researchers devise novel battery chemistries to help make fluoride batteries a reality.
Insights into how nature converts carbon dioxide into sugar could help scientists develop crops that produce fuels and other products.
Scientists observe and control molecular and atomic dynamics at the fastest timescales to date.
Scientists discovered how iron atoms continually re-arrange on surfaces, offering insights into metal corrosion and soil remediation.
Detailed 3D images show how nanoparticles change in reactions that purify contaminated water or power recyclable geochemical batteries.
Researchers offer insights into how a key piece of photosynthetic machinery changed over 3 billion years.