I do think that we are still dealing with copper, but we are working with nano-scale effects which are mostly poorly understood. If that it the case it is an important new tool as the catalytic aspects proves.
I actually studied the behavior of nano scaled carbon particles and soon came to appreciate the potential even to the point of understanding that carbon could easily surpass zeolites in agricultural uses back in 1993. We discovered the existence of biochar in the literature in 2007. I am likely still the only chap who really understands them at all and what is going on.
Put simply, a gold mallet will produce blunt force injuries while a gold syringe will pass through you. Nano gold can interact with a single molecule and that can be really useful. .
Breakthrough: Chinese Scientists Turn Copper Into 'Gold'
A team of Chinese researchers from the Dalian Institute of Chemical Physics, at the Chinese Academy of Sciences in Liaoning, has transformed copper into a new material “almost identical” to gold, according to a new study published in the peer-reviewed journal Science Advances, and first reported by the South China Morning Post on Saturday.
Professor Sun Jian and his team of scientist blasted a copper target with a stream of hot, electrically charged argon gas. The fast-moving ionized particles smashed the copper atoms. The atoms cooled and condensed on the surface of a collecting device, producing a thin layer of sand.
South China Morning Post said each grain of sand measured a few nanometers, or a thousandth of the size of a bacterium.
The researchers placed the material in a reaction chamber and used it as a catalyst to turn coal to alcohol, a complex and intricate chemical process that only precious metals can handle efficiently.
The research paper notes that the new material based on copper can replace gold and silver in the manufacturing process of electronic devices, which requires significant amounts of precious metals.
This would be a game changer for the Chinese manufacturing complex.
Copper, alone, cannot function as well as gold in industrial applications, due to fewer electrons.
These electrons are unstable, so copper tends to react more efficiently when combined with other chemicals.
The procedure developed by Sun’s team can inject a large amount of energy into copper atoms and made the electrons more dense and stable, they said.
"The new material can resist high temperatures, oxidization, and erosion," according to the researchers.
It is “like a warrior with golden armor in a battlefield, capable of withstanding any enemy assault,” they said.
The new material will be of little use for counterfeiters since its density remains the same as copper, therefore making fake gold bars with it would be worthless.
However, the new material would revolutionize industries with readily available and inexpensive raw materials, adding to the deflationary pressures.
Professor Sun Jian and his team of scientist blasted a copper target with a stream of hot, electrically charged argon gas. The fast-moving ionized particles smashed the copper atoms. The atoms cooled and condensed on the surface of a collecting device, producing a thin layer of sand.
South China Morning Post said each grain of sand measured a few nanometers, or a thousandth of the size of a bacterium.
The researchers placed the material in a reaction chamber and used it as a catalyst to turn coal to alcohol, a complex and intricate chemical process that only precious metals can handle efficiently.
"The copper nanoparticles achieved catalytic performance extremely similar to that of gold or silver,” Sun said in a statement on Saturday.
“The results … proved that after processing, metal copper can transform from ‘chicken’ to ‘phoenix’,” claimed Sun, who was not available for comment.Copper has a similar weight and looks to gold.
The research paper notes that the new material based on copper can replace gold and silver in the manufacturing process of electronic devices, which requires significant amounts of precious metals.
This would be a game changer for the Chinese manufacturing complex.
Copper, alone, cannot function as well as gold in industrial applications, due to fewer electrons.
These electrons are unstable, so copper tends to react more efficiently when combined with other chemicals.
The procedure developed by Sun’s team can inject a large amount of energy into copper atoms and made the electrons more dense and stable, they said.
"The new material can resist high temperatures, oxidization, and erosion," according to the researchers.
It is “like a warrior with golden armor in a battlefield, capable of withstanding any enemy assault,” they said.
The new material will be of little use for counterfeiters since its density remains the same as copper, therefore making fake gold bars with it would be worthless.
However, the new material would revolutionize industries with readily available and inexpensive raw materials, adding to the deflationary pressures.
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