Tuesday, February 26, 2019
Antibodies on nanoparticle surfaces may foster or fluster therapies
Scientists have assembled a clearer picture of the molecular activity that occurs when nanoparticles injected into the body are marked for immune system attack.
Entangling photons of different colors
Researchers develop a novel chip-based device for quantum communication.
'Immunizing' quantum bits so that they can grow up
New material enhances supercurrent in topological-insulator nanoribbon Josephson junctions.
The EU gets specific about nanomaterials
The EU's Joint Research Centre has released a report clarifying the key concepts and terms used in the European Commission's nanomaterial definition.
Electrically-heated silicate glass appears to defy Joule's first law
Experiments show electric field can modify silicate glass, causing parts to melt while remaining solid elsewhere; discovery suggests heat in glass could be produced on a very fine scale, could point to performance challenges for devices that use glass.
A new spin in nanoelectronics
Researchers succeed in controlling extremely short-wavelength spin waves.
New microfluidics device can detect cancer cells in blood
Researchers have developed a device that can isolate individual cancer cells from patient blood samples. The microfluidic device works by separating the various cell types found in blood by their size.
Avoiding the crack of doom
New imaging technique reveals how mechanical damage begins at the molecular scale.
It's all in the twist: Physicists stack 2D materials at angles to trap particles on the nanoscale
Results yield a unique platform to study quantum optical physics.
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