1. Stabilization Of The CN35− Anion In Recoverable High‐pressure Ln3O2(CN3) (Ln=La, Eu, Gd, Tb, Ho, Yb) Oxoguanidinates.
- Author
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Aslandukov, Andrey, Jurzick, Pascal L., Bykov, Maxim, Aslandukova, Alena, Chanyshev, Artem, Laniel, Dominique, Yin, Yuqing, Akbar, Fariia I., Khandarkhaeva, Saiana, Fedotenko, Timofey, Glazyrin, Konstantin, Chariton, Stella, Prakapenka, Vitali, Wilhelm, Fabrice, Rogalev, Andrei, Comboni, Davide, Hanfland, Michael, Dubrovinskaia, Natalia, and Dubrovinsky, Leonid
- Subjects
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RARE earth metals , *X-ray absorption near edge structure , *INORGANIC synthesis , *DIAMOND anvil cell - Abstract
A series of isostructural Ln3O2(CN3) (Ln=La, Eu, Gd, Tb, Ho, Yb) oxoguanidinates was synthesized under high‐pressure (25–54 GPa) high‐temperature (2000–3000 K) conditions in laser‐heated diamond anvil cells. The crystal structure of this novel class of compounds was determined via synchrotron single‐crystal X‐ray diffraction (SCXRD) as well as corroborated by X‐ray absorption near edge structure (XANES) measurements and density functional theory (DFT) calculations. The Ln3O2(CN3) solids are composed of the hitherto unknown CN35− guanidinate anion—deprotonated guanidine. Changes in unit cell volumes and compressibility of Ln3O2(CN3) (Ln=La, Eu, Gd, Tb, Ho, Yb) compounds are found to be dictated by the lanthanide contraction phenomenon. Decompression experiments show that Ln3O2(CN3) compounds are recoverable to ambient conditions. The stabilization of the CN35− guanidinate anion at ambient conditions provides new opportunities in inorganic and organic synthetic chemistry. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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