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March 22, 2010 - Volume 88, Number 12
- p. 10
Latest News
Topics Covered
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.
A sprinkling of gold nanoparticles coated with a thin oxide shell allows surface-enhanced Raman scattering (SERS) to probe a wider variety of samples, including those with irregular morphology.
SERS usually involves placing a sample on a roughened metal surface, which amplifies the Raman signal from the sample. Zhong Qun Tian of Xiamen University, in China; Zhong Lin Wang of Georgia Tech; and coworkers turn this usual configuration upside down.
The researchers sprinkle the sample with silica- or alumina-coated gold nanoparticles and then collect Raman spectra (Nature 2010, 464, 392). They call their new method shell-isolated nanoparticle-enhanced Raman spectroscopy, or SHINERS.
The “smart dust” consists of 55-nm gold nanoparticles encased in a shell of silica or alumina. The shell, which is about 2 nm thick, isolates the particles from the sample and from each other but still allows enhancement of the Raman signal. “Each particle is like an independent probe, but the layer is thin enough to allow the gold to effectively enhance the Raman signal of the surface molecule to be detected,” Wang says.
“The dielectric coating is a good idea, because it renders the particles inert,” says Renato Zenobi of the Swiss Federal Institute of Technology, Zurich, the inventor of a related method called tip-enhanced Raman spectroscopy (TERS).
The dust improves the sensitivity of SHINERS relative to SERS and TERS. Compared with TERS, SHINERS has less spatial resolution but higher signal intensity from the greater number of nanoparticles on the sample, Zenobi says.
Using SHINERS, Tian, Wang, and coworkers analyzed a wide range of samples. They measured hydrogen adsorption on single-crystal flat surfaces made of platinum and silicon. They also obtained spectra of proteins in yeast cell walls. They were even able to detect pesticide residues on fresh fruit.
Wang envisions using the technique in handheld portable devices that could “make Raman go from a laboratory to people’s daily lives.”
- Chemical & Engineering News
- ISSN 0009-2347
- Copyright © 2011 American Chemical Society
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