Posted on 05/04/2007 7:22:25 AM PDT by Red Badger
A) Low-magnification SEM image of a platinum tetrahexahedral nanocrystal and its geometrical model. (B) High-resolution transmission electron microscopy image recorded from a platinum tetrahexahedral nanocrystal to reveal surface atomic steps in the areas made of (210) and (310) sub-facets.
A research team composed of electrochemists and materials scientists from China and the US has produced a new form of the industrially-important metal platinum: 24-facet nanocrystals, the catalytic activity per unit area of which can be as much as four times higher than existing commercial platinum catalysts.
The new platinum nanocrystals, whose tetrahexahedral structure had not previously been reported in the metal, could improve the efficiency of chemical processes such as those used to catalyze fuel oxidation and produce hydrogen for fuel cells.
If we are going to have a hydrogen economy, we will need better catalysts. This new shape for platinum catalyst nanoparticles greatly improves their activity. This work also demonstrates a new method for producing metallic nanocrystals with high-energy surfaces. Zhong Lin Wang, a Regents Professor in the School of Materials Science and Engineering at the Georgia Institute of Technology
The new nanocrystals, produced electrochemically from platinum nanospheres on a carbon substrate, remain stable at high temperatures. Their sizes can be controlled by varying the number of cycles of square wave electrical potential applied to them.
This electrochemical technique is vital to producing such tetrahexahedral platinum nanocrystals. The technique used to produce the new platinum nanostructures may also have applications to other catalytic metals. Shi-Gang Sun, an Eminent Professor in the College of Chemistry and Chemical Engineering at the Xiamen University in China
The research was supported by the Natural Science Foundation of China, Special Funds for Major State Basic Research Project of China and the US National Science Foundation. Details are reported in the 4 May issue of the journal Science.
Platinum plays a vital role as a catalyst for many important reactions, used in industrial chemical processing, in motor vehicle catalytic converters that reduce exhaust pollution, in fuel cells and in sensors. Commercially available platinum nanocrystalswhich exist as cubes, tetrahedra and octahedrahave what are termed low-index facets, characterized by the numbers {100} or {111}. Because of their higher catalytic activity, "high-index" surfaces would be preferable, but until now, platinum nanocrystals with such surfaces have never been synthesized and therefore have not been available for industrial use.
The nanocrystals produced by the US-Chinese team have high energy surfaces that include numerous dangling bonds and atomic steps that facilitate chemical reactions. These structures, characterized by {210}, {730} or {520} facets, remain stable at high temperaturesup to 800 degrees Celsius in testing done so far. That stability will allow them to be recycled and re-used in catalytic reactions, Wang said.
Though the process must still be fine-tuned, the researchers have learned to control the size of the particles by varying the processing conditions. They are able to control the size such that only 4.5% of the nanocrystals produced are larger or smaller than the target size.
In nanoparticle research, two things are important: size control and shape control. From a purity point of view, we have been able to obtain a high yield of nanocrystals whose shape was a real surprise. Zhong Lin Wang
Depending on conditions, the new nanocrystals can be as much as four times more catalytically active per unit area than existing commercial catalysts. But since the new structures tested are more than 20 times larger than existing platinum catalysts, they require more of the metal, and hence are less active per unit weight.
We need to find a way to make these nanocrystals smaller while preserving the shape. If we can reduce the size through better control of processing conditions, we will have a catalytic system that would allow production of hydrogen with greater efficiency. Zhong Lin Wang
Production of the new crystals begins with polycrystalline platinum spheres about 750 nanometers in diameter that are electrodeposited onto a substrate of amorphousalso known as glassycarbon. Placed in an electrochemical cell with ascorbic acid and sulfuric acid, the spheres are then subjected to square wave potential that alternates between positive and negative potentials at a rate of 10 to 20 Hertz.
The electrochemical oxidation-reduction reaction converts the spheres to smaller nanocrystals over a period of time ranging from 10 to 60 minutes. The role of the carbon substrate isnt fully understood, but it somehow enhances the uniformity of the nanocrystals.
Scanning electron microscopy shows that the sizes average 81 nanometers in diameter, with the smallest just 20 nanometers. The microscopy also found that the structures were composed of single crystals with no dislocations
Nanocrystal Platinum Ping!.....
let’s hope cat converters drop from 1-2k to $250
The vet can do it for $50............
Just saying.
Well, the palestinians started research, but every time they came near a solution they blew up the lab...........
lol
Exactly my take on the subject.
I believe American ingenuity and economic fortune will drive this new industry.
At that point, I expect liberals will find some point to object to it.
...just as they have carbon, nuclear, hydro, solar and wind!
Solar & wind farms produce visual pollution, don't ya know.
Platinum plays a vital role as a catalyst for many important reactions,
You mean they will say we are using up our natural water supply and we will die of thurst in 2 years sort of thing?
At some point in the future I expect Hydrogen produced energy to be commercialized.
I believe American ingenuity and economic fortune will drive this new industry.
At that point, I expect liberals will find some point to object to it.
...just as they have carbon, nuclear, hydro, solar and wind!
Solar & wind farms produce visual pollution, don’t ya know.
You mean they will say we are using up our natural water supply and we will die of thurst in 2 years sort of thing?
By the way, You’re from Louisiana? A Cajun?
Fascinating...
I wonder what the graphs in the picture represent.
Well, that’s simple enough. Just have the Platinum crystals accrete onto the Carbon substrate within a Yttrium-Boron gas at 1650C under 14,000 kilonewtons of pressure. This will force the crystals to get smaller. It’ll only take around 4 minutes to form around 2.5 mg/sq meter.
I’m surprised they don’t seem to know this - we use the process everyday at our plant in Nebraska where we make Platinum-hulled spaceships for exploring Uranus.
Bump for later reading. Sounds familiar again.
"Hydrogen Energy produces Global Evaporation & H20 Depletion!"
"Save The Planet, Bath Once A Week!"
No, I’m not cajun. Raised in Mississippi. Lived in LA most of my adult life in the burbs outside NO. My fondest memories are in the country in Miss. It’s always wise to marry, especially cajuns, one at a time.
“Work accident.”
deja view?.........
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