A new fullertube molecule is found

A new fullertube molecule is found
Credit: Journal of the American Chemical Society (2023). DOI: 10.1021/jacs.3c09082

For years, C130 fullertubes—molecules made up of 130 carbon atoms—have existed only in theory. Now, leading an international team of scientists, a UdeM doctoral student in physics has successfully shown them in real life—and even managed to capture some in a photograph.

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First published online last October, the discovery was made by Bourret as lead scientist of an inter-university team that also included researchers from Purdue University, Virginia Tech, and the Oak Ridge National Laboratory in Tennessee.

A fullertube is basically an assembly of carbon atoms arranged to form a closed tubular cage. It is related to fullerenes, molecules that are represented as cages of interconnected hexagons and pentagons and come in a wide variety of sizes and shapes.

For example, a C60 fullerene is made up of 60 carbon atoms and is shaped like a soccer ball. It is relatively small, spherical, and very abundant. C120 fullerenes are less common. They are longer and shaped like a tube capped at either end with the two halves of a C60 fullerene.

Found in soot

The C130 fullertube (or C130-D5h, its full scientific name) is more elongated than the C120 and even rarer. To isolate it, Bourret and his team generated an electric arc between two graphite electrodes to produce soot containing fullerene and fullertube molecules. The electronic structure of these molecules was then calculated using density functional theory (DFT).

“Drawing on principles of quantum mechanics, DFT enables us to calculate electronic structures and predict the properties of a molecule using the fundamental rules of physics,” explained Bourret’s thesis supervisor, UdeM physics professor Michel Côté, a researcher at the university’s Institut Courtois.

Using special software, Bourret was able to describe the structure of the C130 molecule: it is a tube with two hemispheres at the ends, making it look like a microscopic capsule. It measures just under 2 nanometers long by 1 nm wide.

“The structure of the tube is basically made up of atoms arranged in hexagons,” said Bourret. “At the two ends, these hexagons are linked by pentagons, giving them their rounded shape.”

Bourret began doing theoretical work on fullertubes in 2014 under his then-supervisor Jiri Patera, an UdeM mathematics professor. After Patera passed away in January 2022, Bourret then approached Côté, who became his new supervisor.

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Existence shown in 2020

Two years before that, Bourret had read an article by Purdue University at Fort Wayne professor Steven Stevenson, who described the experimental isolation of certain fullertubes, demonstrating their existence but not identifying all of them.

Under Côté’s guidance, Bourret set to work advancing knowledge on the topic.

“Emmanuel had a strong background in abstract mathematics,” Bourret recalled, “and he added an interesting dimension to my research group, which focuses on more computational approaches.”

“It’s hard to say at this stage, but one possibility might be the production of hydrogen,” said Côté. “Currently, what’s used is a catalyst made of platinum and rubidium, both of which are rare and expensive. Replacing them with carbon structures such as C130 would make it possible to produce hydrogen in a ‘greener’ way.”

The findings are published in the Journal of the American Chemical Society.

More information:
Emmanuel Bourret et al, Colossal C130 Fullertubes: Soluble [5,5] C130-D5h(1) Pristine Molecules with 70 Nanotube Carbons and Two 30-Atom Hemifullerene End-caps, Journal of the American Chemical Society (2023). DOI: 10.1021/jacs.3c09082

Journal information:Journal of the American Chemical Society

Provided by
University of Montreal


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