Placing a thin layer of molybdenum disulfide on diamond enables current flow at room temperature, opening a new pathway for diamond-based electronic devices.
An implantable scaffold and magnetic probes capture circulating tumor cells directly in the bloodstream, eliminating over 90% of captured cells in rabbits and goats.
Researchers have demonstrated how quantum mechanical entanglement can be used to measure several physical parameters simultaneously with greater precision.
Nanofiber-based, triboelectric nanogenerator-based nanosensors that work without batteries or wires could pave the way for ...
A thermochromic film embedded with size-optimized microcapsules autonomously switches between passive heating and cooling ...
Centrifuge enables researchers to control the rotation of molecules suspended in liquid helium nano-droplets, bringing them a ...
Scientists have created 3D printed surfaces featuring intricate textures that can be used to bounce unwanted gas particles ...
By adjusting the speed of the laser in a high-entropy alloy, researchers discovered a method to guide how the atoms settle as the metal solidifies, controlling the material's properties directly at ...
A new electrolysis technique could make an important contribution to the electrification of the chemical industry.
This quantum material has been theoretically predicted for more than a decade but had remained inaccessible due to materials challenges.
A new perspective describes engineered nanoparticles that target and degrade disease-causing proteins, opening new ways to treat dementia, brain cancer, and other conditions.
A laser-programmed strategy to engineer the local stiffness and interfacial properties of textiles enables the direct assembly of standard electronic components onto textiles to create stretchable ...
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