Tune in to Tetrahedral Superstructures
Scientists image complex superstructures self-assembled from tetrahedral quantum dots, expanding our understanding of forming small, complex crystals.
Scientists image complex superstructures self-assembled from tetrahedral quantum dots, expanding our understanding of forming small, complex crystals.
Ultrafast X-rays track how associated pairs of atoms find new locations when triggered by light.
A new path is identified to keep lithium in its place during battery discharge, benefitting efforts to design better energy storage options.
Models use a fraction of the computational cost of today’s best atom-based water models.
Discovery of novel polymers with extreme stretching, vibration suppression, and self-healing.
Researchers capture detailed images of polymers, using electron-based imaging and computer simulations.
New method could enable studying the fastest interactions of ultrabright X-rays with matter, a vital way of learning about chemical reactions.
Production of actinium-227 ramps up for use in a drug to fight prostate cancer that has spread to bone.
New method provides ultrafast switching of electronic structure and illuminates fundamentals of charge ordering, potentially offering a simple path for next-generation data storage.
Read more about Bursts of Light Shape Walls Between Waves of ChargeDetailed 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 ElectricityNeutron scattering reveals supersonic particles that carry heat and may improve electronics and sensors.
Read more about Beyond the “Sound Barrier” to Get the Heat OutResearchers design self-assembling nanosheets that mimic the surface of cells.
Read more about Tiny, Sugar-Coated Sheets Selectively Target Pathogens