Researchers Develop Goldene A New Form of Ultra-Thin Gold With Semiconductor Properties – SciTechDaily

Researchers at Linkping University have successfully created single-atom-thick gold sheets, known as goldene, using a technique inspired by ancient Japanese smiths. Credit: SciTechDaily.com

For the first time, scientists have managed to create sheets of gold only a single atom layer thick. The material has been termed goldene. According to researchers from Linkping University, Sweden, this has given the gold new properties that can make it suitable for use in applications such as carbon dioxide conversion, hydrogen production, and production of value-added chemicals. Their findings are published in the journal Nature Synthesis.

Scientists have long tried to make single-atom-thick sheets of gold but failed because the metals tendency to lump together. But researchers from Linkping University have now succeeded thanks to a hundred-year-old method used by Japanese smiths.

If you make a material extremely thin, something extraordinary happens as with graphene. The same thing happens with gold. As you know, gold is usually a metal, but if single-atom-layer thick, the gold can become a semiconductor instead, says Shun Kashiwaya, researcher at the Materials Design Division at Linkping University.

Lars Hultman, professor of thin film physics and Shun Kashiwaya, researcher at the Materials Design Division at Linkping University. Credit: Olov Planthaber

To create goldene, the researchers used a three-dimensional base material where gold is embedded between layers of titanium and carbon. But coming up with goldene proved to be a challenge. According to Lars Hultman, professor of thin film physics at Linkping University, part of the progress is due to serendipidy.

We had created the base material with completely different applications in mind. We started with an electrically conductive ceramics called titanium silicon carbide, where silicon is in thin layers. Then the idea was to coat the material with gold to make a contact. But when we exposed the component to high temperature, the silicon layer was replaced by gold inside the base material, says Lars Hultman.

For the first time, scientists have managed to create sheets of gold only a single atom layer thick. Credit: Olov Planthaber

This phenomenon is called intercalation and what the researchers had discovered was titanium gold carbide. For several years, the researchers have had titanium gold carbide without knowing how the gold can be exfoliated or panned out, so to speak.

By chance, Lars Hultman found a method that has been used in Japanese forging art for over a hundred years. It is called Murakamis reagent, which etches away carbon residue and changes the color of steel in knife making, for example. But it was not possible to use the exact same recipe as the smiths did. Shun Kashiwaya had to look at modifications:

I tried different concentrations of Murakamis reagent and different time spans for etching. One day, one week, one month, several months. What we noticed was that the lower the concentration and the longer the etching process, the better. But it still wasnt enough, he says.

Shun Kashiwaya, researcher at the Materials Design Division at Linkping University. Credit: Olov Planthaber

The etching must also be carried out in the dark as cyanide develops in the reaction when it is struck by light, and it dissolves gold. The last step was to get the gold sheets stable. To prevent the exposed two-dimensional sheets from curling up, a surfactant was added. In this case, a long molecule that separates and stabilises the sheets, i.e. a tenside.

The goldene sheets are in a solution, a bit like cornflakes in milk. Using a type of sieve, we can collect the gold and examine it using an electron microscope to confirm that we have succeeded. Which we have, says Shun Kashiwaya.

Lars Hultman, professor of thin film physics at Linkping University. Credit: Olov Planthaber

The new properties of goldene are due to the fact that the gold has two free bonds when two-dimensional. Thanks to this, future applications could include carbon dioxide conversion, hydrogen-generating catalysis, selective production of value-added chemicals, hydrogen production, water purification, communication, and much more. Moreover, the amount of gold used in applications today can be much reduced.

The next step for the LiU researchers is to investigate whether it is possible to do the same with other noble metals and identify additional future applications.

Reference: Synthesis of goldene comprising single-atom layer gold by Shun Kashiwaya, Yuchen Shi, Jun Lu, Davide G. Sangiovanni, Grzegorz Greczynski, Martin Magnuson, Mike Andersson, Johanna Rosen and Lars Hultman, 16 April 2024, Nature Synthesis. DOI: 10.1038/s44160-024-00518-4

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