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New metal crystals, formed on a cotton assembly line
March 27, 2007CHICAGO — Appropriating cellulose fibers from cotton and crystallizing them, scientists at Pacific Northwest National Laboratory have grown never-before-seen configurations of metal crystals that show promise as components in biosensors, biological imaging, drug delivery and catalytic converters.
Deriving the desired chemical and physical properties necessary for those applications hinges on the uniform size of the metal crystals. Depending on the metal, they must be between 2 and 200 nanometers, Yongsoon Shin, a staff scientist at the Department of Energy laboratory in Richland, Wash., reported Monday at the national meeting of the American Chemical Society. PNNL laboratory fellow Gregory Exarhos led the research.
Exarhos called Shin's experimental work "the first report of the efficacy of nanocrystalline cellulose templates in driving the formation of ordered metal and metal oxide nanoparticles at surfaces." Exarhos has dubbed these cellulose nanocrystals "molecular factories."
Using acid-treated cellulose fibers from cotton as a natural template, the PNNL team has been able to grow gold, silver, palladium, platinum, copper, nickel and other metal and metal-oxide nanocrystals quickly and of uniform size, Shin said. The metals display catalytic, electrical and optical that would not be present in larger or odd-sized crystals.
The acid converts the cellulose to a large, stable crystallized molecule rich in oxygen-hydrogen, or hydroxyl, groups, predictably spaced along the long chemical chains, or polymers, that comprise the cellulose molecule's backbone. When most metal salts dissolved in solution are added in a pressurized oven and heated 70 to 200 degrees centigrade or warmer for four to 16 hours, uniform metal crystals form at the hydroxyl sites.
The researchers called this method a "green process," requiring only heat, the crystalline cellulose and the metal salts. Other attempts to get uniform nanometals have resulted in crystals of widely variable sizes that require strong, caustic chemicals as reducing and stabilizing agents.
"We have some preliminary catalytic results," Shin said, involving "coupling reactions of organic molecules for palladium and UV-irradiated degradation of organic dyes in water with selenium metals. "Smaller particles—15 to 20 nanometers—showed faster and higher catalytic conversion ratio compared to commercial catalysts.\\\
DOE/Pacific Northwest National Laboratory
Using acid-treated cellulose fibers from cotton as a natural template, the PNNL team has been able to grow gold, silver, palladium, platinum, copper, nickel and other metal and metal-oxide nanocrystals quickly and of uniform size, Shin said. The metals display catalytic, electrical and optical that would not be present in larger or odd-sized crystals.
The acid converts the cellulose to a large, stable crystallized molecule rich in oxygen-hydrogen, or hydroxyl, groups, predictably spaced along the long chemical chains, or polymers, that comprise the cellulose molecule's backbone. When most metal salts dissolved in solution are added in a pressurized oven and heated 70 to 200 degrees centigrade or warmer for four to 16 hours, uniform metal crystals form at the hydroxyl sites.
The researchers called this method a "green process," requiring only heat, the crystalline cellulose and the metal salts. Other attempts to get uniform nanometals have resulted in crystals of widely variable sizes that require strong, caustic chemicals as reducing and stabilizing agents.
"We have some preliminary catalytic results," Shin said, involving "coupling reactions of organic molecules for palladium and UV-irradiated degradation of organic dyes in water with selenium metals. "Smaller particles—15 to 20 nanometers—showed faster and higher catalytic conversion ratio compared to commercial catalysts.\\\
DOE/Pacific Northwest National Laboratory
Nature press release for 7 December issue
[408720] BRAIN: NO PAIN, NO GAIN (pp720-723) Morphine remains the standard against which the efficacy of analgesics tends to be rated, but its potent induction of tolerance and dependence mean that it can rarely be prescribed as a pain killer. The analgesic action of morphine is known to be enhanced in mice lacking the regulatory protein ‘beta-arrestin’. Now Marc G. Caron, Robert J. Lefkowitz and colleagues, of the Duke University Medical Center, Durham, North Carolina, show that knockout mice lacking beta-arrestin do not develop tolerance to the analgesic effect of morphine, but do develop physical dependence. This clearly demonstrates that tole
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