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nanotechnology

Brain and tumor illustration. Courtesy of nottingham.ac.uk

New research signals a quantum leap for brain tumour treatment

Formed within wells indented into the stack of two different layered materials, a monolayer semiconductor and an anti-ferromagnetic crystal, the chiral quantum light emissions rise up out of the material and could be used for quantum information and communication applications.

New quantum device generates single photons and encodes information

Sandia National Laboratories researcher Ryan Schoell uses a specialized transmission electron microscope technique developed by Khalid Hattar, Dan Bufford and Chris Barr to study fatigue cracks at the nanoscale.

‘Stunning’ discovery: Metals can heal themselves

An artistic rendering of lipid nanoparticles showing multiple layers that take on different molecular arrangements, giving the particle varying properties. Jenny Nuss

Breaking Barriers in Drug Delivery with Better Lipid Nanoparticles

Nanopores are the secret to making electricity from thin air.

Engineers harvest clean energy from thin air

Tom de Greef CREDIT Bart van Overbeeke / Eindhoven University of Technology (TU/e)

The future of data storage lies in DNA microcapsules

A nanomaterials-based sensor detects flu and COVID-19 much more quickly than conventional tests.

Is it COVID-19 or the flu? New sensor could tell you in 10 seconds

Associate Professor Menglin Chen

Danish researchers aim to spin artificial nerve fibres with new technology

blood brain barrier illustration

Rabies virus helps Alzheimer’s treatment cross blood-brain barrier

Doctor examining a patient Credit: Natalia Gdovskaia via Getty Images

Gone fishing: highly accurate test for common respiratory viruses uses DNA as ‘bait’

Chemical “micromotors,” as illustrated here, can effectively deliver insulin in rats without an injection.

Another step toward an insulin tablet

Researchers have found a way to create much stronger interactions between photons and electrons, in the process producing a hundredfold increase in the emission of light from a phenomenon called Smith-Purcell radiation. Credits:Courtesy of the researchers

Researchers increase light emission through photon-electron interaction

University of Minnesota Twin Cities Professor Bharat Jalan is co-leading a team that has developed a new method for making nano-membranes of “smart” materials, which will allow scientists to harness their unique properties for use in devices such as sensors and flexible electronics.

New process to create freestanding membranes of ‘smart’ materials

2 health sciences professors named fellows of the National Academy of Inventors

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