August 3, 2022

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New study: Nitrogen forms extremely unusual structures under high pressure

Unique arrangements of nitrogen compounds in the new YN₆ and Y₂N₁₁ yttrium nitrides created in a diamond stamp cell at a compression pressure of 100 gigapascals. Credit: Andrii Aslandukov.
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Unique arrangements of nitrogen compounds in the new YN₆ and Y₂N₁₁ yttrium nitrides created in a diamond stamp cell at a compression pressure of 100 gigapascals. Credit: Andrii Aslandukov.

Researchers at the Universities of Bayreuth and Linköping have produced two surprising compounds of nitrogen and the rare earth metal yttrium under very high pressure. The new polynitrides contain ring- and spiral-shaped crystal structures of nitrogen that have never before been observed in experiments or predicted in theoretical calculations. They look similar to widespread structures of carbon compounds. The high-pressure syntheses described in the journal Angewandte Chemie show that the diversity of possible nitrogen compounds and their structures is far greater than the behavior of nitrogen atoms under normal conditions would suggest.

The number of nitrogen compounds occurring in nature is very small compared to the structural diversity of carbon compounds. This is mainly because nitrogen atoms form extremely stable triple bonds at normal ambient pressure. In the last two decades, however, it has become apparent that the chemistry of nitrogen changes significantly under very high pressures. Research teams at the University of Bayreuth, led by Prof. Dr. Natalia Dubrovinskaia and Prof. Dr. Leonid Dubrovinsky, have synthesized novel nitrogen compounds (nitrides) that exhibit unusual structures and, in some cases, have technologically very attractive properties—such as very high energy density or extraordinary hardness. The study now published builds on this research.

The two new yttrium nitrides, YN₆ and Y₂N₁₁, were created in a laser-heated diamond stamp cell. At a compression pressure of 100 gigapascals and at a temperature of about 2,700 degrees Celsius, occurred between yttrium and nitrogen atoms, leading to the new compounds. The crystal structures of YN₆ and Y₂N₁₁ have unique arrangements of nitrogen atoms:

Crucial for the detection of these very unusual structures were the latest techniques of high-pressure synchrotron single-crystal X-ray diffraction. Among other things, they revealed that the nitrogen atoms in the new crystal structures are connected to each other by covalent bonds, while there are no between the nitrogen and yttrium atoms.

"In organic chemistry, ring- and spiral-shaped carbon compounds are of central importance. The few polynitrides known to date in which form such structures are all inorganic compounds. However, our high-pressure synthesis of Y₂N₁₁ is further evidence that nitrogen has the fundamental potential to form such structural units," says Andrii Aslandukov, first author of the new publication and a Ph.D. student of the research team of Prof. Dr. Leonid Dubrovinsky at the Bavarian Geoinstitute (BGI) and Prof. Dr. Natalia Dubrovinskaia at the Laboratory of Crystallography of the University of Bayreuth.

"Together with our partners at Linköping, we will continue to advance research on such nitrogen compounds at Bayreuth. We may not be far away in research from synthesizing polynitrides that exhibit a structural diversity undreamed of today. This would be the beginning of a new branch of chemistry: at high pressures," explains Prof. Dubrovinskaia.

More information: Andrey Aslandukov et al, Anionic N 18 Macrocycles and a Polynitrogen Double Helix in Novel Yttrium Polynitrides YN 6 and Y 2 N 11 at 100 GPa, Angewandte Chemie International Edition (2022). DOI: 10.1002/anie.202207469

Journal information: Angewandte Chemie , Angewandte Chemie International Edition

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