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Writer's pictureBy The Financial District

Danish Scientists Used Graphene To Create World's Thinnest X'Mas Tree

A couple of years ago, Canadian scientists celebrated the Christmas season by creating a microscopic gingerbread house. In that same spirit, Danish researchers have now produced what they claim is the world's thinnest Christmas tree – and it's made of graphene, Ben Coxworth reported for New Atlas.


Photo Insert: Various versions of the Christmas tree with a thickness of one atom made at Technical University of Denmark (DTU).



For those of you who are unfamiliar with the substance, graphene takes the form of a one-atom-thick sheet of carbon atoms, linked together in a honeycomb pattern. It's the world's thinnest, strongest manmade material, plus it's also very electrically and thermally conductive, and highly impermeable.


These characteristics make it quite useful in a variety of applications, such as batteries, electronic devices, and high-strength composite materials. One challenge, however, lies in ensuring its quality while producing it on a commercial scale. That's why the Christmas tree was made.



Produced by scientists at the Technical University of Denmark (DTU), the object measures 14 cm (5.5 inches) in length and is just one-third of a nanometer-thick – a nanometer is one-billionth of a meter.


It was cut from a 10-meter-long (32.8-ft) roll of graphene, which was produced by first "growing" graphene on a reusable roll of copper foil, then lifting the graphene off the copper and transferring it onto a roll of inexpensive polymer film for handling and storage.


All the news: Business man in suit and tie smiling and reading a newspaper near the financial district.

Once the graphene had been transferred onto the polymer, it was first subjected to terahertz radio waves, then scanned to see how much terahertz radiation it had absorbed. Graphene's ability to absorb such radiation corresponds directly to its electrical conductivity, so as long as the scans show that it's uniformly radiated, it should be good to go.


"Behind the Christmas [tree] joke hides an important breakthrough," says the lead scientist, Prof. Peter Bøggild.


Science & technology: Scientist using a microscope in laboratory in the financial district.

"For the first time, we managed to make an in-line quality control of the graphene layer while we transferred it. Doing this is the key to gaining stable, reproducible and usable material properties, which is the prerequisite for utilizing graphene in, e.g. electronic circuits."





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