Teamwork in a molecule


Chemists at University of Jena (Germany) harness synergy effect of gallium


Credit: Jens Meyer/University of Jena

“Such reactions are usually carried out using transition metals, such as nickel or iridium,” explains Prof. Robert Kretschmer, Junior Professor of Inorganic Chemistry at the University of Jena, whose work has been published in the prestigious Journal of the American Chemical Society. “However, transition metals are expensive and harmful to the environment, both when they are mined and when they are used. Therefore, we are trying to find better alternatives.” That two metals can do more than one is already known in the case of transition metals. “However, there has been hardly any research on the more sustainable main-group metals of the periodic table,” Kretschmer adds.

Hand in hand

“Our compound contains two chemically identical gallium atoms,” says Kretschmer. “In tests with a series of fluorine-containing hydrocarbon compounds, we saw that these two atoms together are capable of removing a fluorine atom. Using X-ray structure analysis, we were able to prove that one gallium atom binds the fluorine and the other binds the other part of the hydrocarbon compound.” This is the first step needed for catalysis.

“Now that this step has been achieved, we can consider how to develop this concept further,” explains Kretschmer. “It would of course be desirable if, at the end, the reaction could be continued to achieve a complete catalytic cycle.” However, this will probably involve a different metal. Kretschmer notes: “Gallium as an element was a first step here. Our goal is ultimately to harness the metal that occurs most frequently on earth: aluminium.”


Original publication

Oleksandr Kysliak, Helmar Görls and Robert Kretschmer, „Cooperative Bond Activation by a Bimetallic Main-Group Complex”, Journal of the American Chemical Society, 2021, (143:1), 142-148. DOI: 10.1021/jacs.0c12166


Robert Kretschmer

Junior Professorship of Anorganic Chemistry of Catalysis

Institute for Inorganic and Analytical Chemistry of Friedrich Schiller University Jena

Humboldtstraße 8, 07743 Jena, Germany

Phone: +49 3641 9-48 911

Email: [email protected]

Media Contact
Ute Schoenfelder
[email protected]

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