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March 28, 2011 - Volume 89, Number 13
- p. 8
Latest News
Latest News
October 28, 2011
Speedy Homemade-Explosive Detector
Forensic Chemistry: A new method could increase the number of explosives detected by airport screeners.
Solar Panel Makers Cry Foul
Trade: U.S. companies complain of market dumping by China.
Novartis To Cut 2,000 Jobs
Layoffs follow similar moves by Amgen, AstraZeneca.
Nations Break Impasse On Waste
Environment: Ban to halt export of hazardous waste to developing world.
New Leader For Lawrence Livermore
Penrose (Parney) Albright will direct DOE national lab.
Hair Reveals Source Of People's Exposure To Mercury
Toxic Exposure: Mercury isotopes in human hair illuminate dietary and industrial sources.
Why The Long Fat?
Cancer Biochemistry: Mass spectrometry follows the metabolism of very long fatty acids in cancer cells.
J. Am. Chem. Soc.
This erbium complex (hydrogens not shown) displays novel magnetic behavior for a single-metal-ion magnet.
An unusually unsymmetrical organometallic complex made up of an erbium atom sandwiched between two different aromatic hydrocarbon rings exhibits unique magnetic behavior, a new study shows. This complex could become a prototype for further development of single-molecule magnets (SMMs), which are being sought for applications such as high-density information storage and quantum computing.
Conventional magnets rely on the collective behavior of the unpaired electron spins of millions of individual metal atoms in a bulk material. SMMs, on the other hand, individually exhibit magnetlike behavior. A magnetic device made with these complexes, each storing a bit of data, could hold thousands of times more information than current storage devices.
Most SMMs are based on cluster compounds with multiple metal-ion cores such as Mn12O12, but only about 10 examples of single-metal-ion SMMs are known. A research team led by Song Gao and Bing-Wu Wang of Peking University, in China, has synthesized and studied the magnetic properties of a new type: an erbium cyclooctatriene pentamethylcyclopentadiene complex (J. Am. Chem. Soc., DOI: 10.1021/ja200198v).
The erbium complex is notable for being the first example of an organometallic single-metal-ion magnet; previous versions contain oxygen- or nitrogen-based ligands. In the complex, the C8 ring is closer to the erbium atom than the C5 ring, and the rings are not perfectly parallel to each other as they are in most other sandwich compounds.
Gao and coworkers find that this orientation enables erbium’s electron configuration to generate magnetic properties not achieved before in SMMs: It has two thermal magnetic relaxation processes instead of one, and the magnetism exists at a higher temperature range.
“The field of single-molecule magnetism has been firmly rooted in coordination chemistry with oxygen, nitrogen, and cyanide ligands being the major players,” observes Kim R. Dunbar, an SMM specialist at Texas A&M University. “The discovery of a bona fide organometallic SMM brings the topic of magnetic bistability to a whole new synthetic audience. The field is now absolutely wide open for new developments.”
- Chemical & Engineering News
- ISSN 0009-2347
- Copyright © 2011 American Chemical Society
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