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Researchers have developed a 'self-driving' microscope that can predict the onset of misfolded protein aggregation - a ...
Spin waves have been directly observed at the nanoscale using a high-resolution electron microscope, enabling new ways to ...
Scientists developed a method combining effective theory and duality transformations to simplify and solve complex quantum systems with strong interactions.
Researchers achieve quantum confinement without shrinking materials by engineering a COF with confined excitons, enabling ...
Researchers use layered MOFs and selenium chemistry to create efficient, low-energy electrocatalysts for hydrogen and oxygen ...
Researchers converted layered MXenes into chemically bonded solids using metal intercalation, boosting thermal stability and ...
The 2nd AnDi Challenge benchmarked tools for analyzing single-molecule motion in cells, revealing key strengths and ongoing challenges in the field.
Researchers have developed nanoparticles that not only deliver drugs but also provide therapeutic effects by actively ...
Researchers created a predictive method to identify 2D materials with ferroelectric and magnetic properties, uncovering 83 ...
Electron beam method enables high-yield graphdiyne synthesis in seconds under ambient conditions, offering a fast route to carbon-based catalytic materials.
Researchers developed a method to embed high levels of magnetic atoms into semiconductors, opening paths to spintronics, ...
Flash-freezing reveals how cooling speed shapes silicon crystal layers, offering insights into defect-free growth for ...
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