Physicists tailor magnetic pairings in nanoscale semiconductors

User rating: 4.3 / 5 after 15 vote(s)

Electrons love to zip around metals such as copper, especially if the metal is cooled to temperatures near absolute zero. But if they encounter a magnetic atom (say, iron) during their travels, the electrons will try to "screen," or cancel out, the magnetic atom's spin alignment by pairing with it. This pairing modifies the flow of electrons in the metal, in a phenomenon called the Kondo effect.


Full story »
All News summaries from Nanotechnology news
All News summaries for March 14, 2007

'Nanonet' circuits closer to making flexible electronics reality

11 hours ago | User rating: not rated yet
Researchers have overcome a major obstacle in producing transistors from networks of carbon nanotubes, a technology that could make it possible to print circuits on plastic sheets for applications including ...

Nanoparticle Research Points to Energy Savings

Jul 23, 2008 | User rating: not rated yet
(PhysOrg.com) -- Adding just the right dash of nanoparticles to standard mixes of lubricants and refrigerants could yield the equivalent of an energy-saving chill pill for factories, hospitals, ships, and ...

Artificial Lotus Effect: Carbon nanotubes with nanoscopic paraffin coating form superhydrophobic, self-cleaning surfaces

Jul 23, 2008 | User rating: not rated yet
Never wash your car again? Never clean your windows? These may well become reality if it becomes possible to produce the right coatings—coatings that imitate the self-cleaning effect of the lotus blossom.

Holey Nanoparticles Create New Tumor Imaging and Therapeutic Agent

Jul 22, 2008 | User rating: not rated yet
Using a polymer that has both water-soluble and water-insoluble regions, a team of investigators from the Siteman Center of Cancer Nanotechnology Excellence has created a nanoparticle shaped like a bialy, a close relative ...

Engineers Prove Graphene is the Strongest Material

Jul 22, 2008 | User rating: not rated yet
(PhysOrg.com) -- Research scientists at Columbia University’s Fu Foundation School of Engineering and Applied Science have achieved a breakthrough by proving that the carbon material graphene is the strongest ...
Goto Archive PhysOrg Forum Goto Archive Video Goto Archive Editorials Goto Archive Free Magazines Goto Archive Newsletter

News Archive