Two types of endohedral complexes exist: endohedral metallofullerenes and non-metal doped fullerenes. Nitrogen endohedral fullerenes is being used to create a small and portable atomic clock – the ...

Discover the astonishing world of Nitrogen Atom-Based Endohedral Fullerenes, a powder worth over £106 million per gram! While you might expect gold or diamonds to top the charts, this futuristic ...

The synthesis of such molecules – so-called endohedral fullerenes – was achieved just a few years later. Metallofullerenes have primarily attracted interest in the IT and pharmaceutical sectors.

Therefore, to combine the advantages of both types of fullerenes, researchers have been attempting to modify the cage of endohedral metallofullerenes to obtain MEAF.

The only other material on Earth that could rival the astronomical cost of endohedral fullerenes is antimatter, which NASA estimates would cost about US$61 trillion per gram, but no one’s in the ...

Oxford University scientists are creating the world's most expensive material - endohedral fullerenes, spherical carbon molecules containing nitrogen atoms, which sell for £100 million a gram.

That’s why Nitrogen Atom-Based Endohedral Fullerenes is so valuable. One of the problems which the substance could solve is the positioning of driverless cars, for instance.

Currently, endohedral nitrogen fullerenes have been produced for $5/mg and sold for $100/mg. ‘In terms of the production of endohedral nitrogen fullerenes, the challenge that needs to be overcome is ...

Oxford based Designer Carbon Materials are selling endohedral fullerenes for £100m a gram, and the company has just made its first shipment of 200 micrograms for £22k.

The only other material on earth that could rival the astronomical cost of endohedral fullerenes is antimatter, but no one’s in the business of producing antimatter to sell commercially just yet ...

£100m per gram. $4.2 billion per ounce. That’s how much the most expensive material on Earth costs. Created by Designer Carbon Materials in an Oxford University lab, “endohedral fullerenes ...