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Literature DB >> 27257782

Crystal-Field and Covalency Effects in Uranates: An X-ray Spectroscopic Study.

Sergei M Butorin¹, Kristina O Kvashnina^2,3, Anna L Smith⁴, Karin Popa⁵, Philippe M Martin⁶.

Abstract

The electronic structure of U(V) - and U(VI) -containing uranates NaUO3 and Pb3 UO6 was studied by using an advanced technique, namely X-ray absorption spectroscopy (XAS) in high-energy-resolution fluorescence-detection (HERFD) mode. Due to a significant reduction in core-hole lifetime broadening, the crystal-field splittings of the 5f shell were probed directly in HERFD-XAS spectra collected at the U 3d edge, which is not possible by using conventional XAS. In addition, the charge-transfer satellites that result from U 5f-O 2p hybridization were clearly resolved. The crystal-field parameters, 5f occupancy, and degree of covalency of the chemical bonding in these uranates were estimated by using the Anderson impurity model by calculating the U 3d HERFD-XAS, conventional XAS, core-to-core (U 4f-3d transitions) resonant inelastic X-ray scattering (RIXS), and U 4f X-ray photoelectron spectra. The crystal field was found to be strong in these systems and the 5f occupancy was determined to be 1.32 and 0.84 electrons in the ground state for NaUO3 and Pb3 UO6 , respectively, which indicates a significant covalent character for these compounds.

Entities: Chemical

Keywords: X-ray absorption spectroscopy; computational chemistry; crystal-field studies; electronic structure; uranium

Year: 2016 PMID： 27257782 DOI： 10.1002/chem.201505091

Source DB: PubMed Journal: Chemistry ISSN： 0947-6539 Impact factor: 5.236

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Cited

7 in total

1. Application of multi-edge HERFD-XAS to assess the uranium valence electronic structure in potassium uranate (KUO₃).

Authors: René Bes; Gregory Leinders; Kristina Kvashnina
Journal: J Synchrotron Radiat Date: 2022-01-01 Impact factor: 2.616

2. A new μ-high energy resolution fluorescence detection microprobe imaging spectrometer at the Stanford Synchrotron Radiation Lightsource beamline 6-2.

Authors: Nicholas P Edwards; John R Bargar; Douglas van Campen; Arjen van Veelen; Dimosthenis Sokaras; Uwe Bergmann; Samuel M Webb
Journal: Rev Sci Instrum Date: 2022-08-01 Impact factor: 1.843

3. X-ray spectroscopic study of chemical state in uranium carbides.

Authors: Sergei M Butorin; Stephen Bauters; Lucia Amidani; Aaron Beck; Stephan Weiss; Tonya Vitova; Olivier Tougait
Journal: J Synchrotron Radiat Date: 2022-01-27 Impact factor: 2.616

Review 4. High-energy resolution X-ray spectroscopy at actinide M_4,5 and ligand K edges: what we know, what we want to know, and what we can know.

Authors: Kristina O Kvashnina; Sergei M Butorin
Journal: Chem Commun (Camb) Date: 2022-01-04 Impact factor: 6.222

5. A New Look at the Structural and Magnetic Properties of Potassium Neptunate K₂NpO₄ Combining XRD, XANES Spectroscopy, and Low-Temperature Heat Capacity.

Authors: Anna L Smith; Eric Colineau; Jean-Christophe Griveau; Karin Popa; Guilhem Kauric; Philippe Martin; Andreas C Scheinost; Anthony K Cheetham; Rudy J M Konings
Journal: Inorg Chem Date: 2017-04-24 Impact factor: 5.165

6. A Novel Metastable Pentavalent Plutonium Solid Phase on the Pathway from Aqueous Plutonium(VI) to PuO₂ Nanoparticles.

Authors: Kristina O Kvashnina; Anna Yu Romanchuk; Ivan Pidchenko; Lucia Amidani; Evgeny Gerber; Alexander Trigub; Andre Rossberg; Stephan Weiss; Karin Popa; Olaf Walter; Roberto Caciuffo; Andreas C Scheinost; Sergei M Butorin; Stepan N Kalmykov
Journal: Angew Chem Int Ed Engl Date: 2019-11-06 Impact factor: 15.336

7. The Application of HEXS and HERFD XANES for Accurate Structural Characterisation of Actinide Nanomaterials: The Case of ThO₂.

Authors: Lucia Amidani; Gavin B M Vaughan; Tatiana V Plakhova; Anna Yu Romanchuk; Evgeny Gerber; Roman Svetogorov; Stephan Weiss; Yves Joly; Stepan N Kalmykov; Kristina O Kvashnina
Journal: Chemistry Date: 2020-11-12 Impact factor: 5.236

7 in total

Crystal-Field and Covalency Effects in Uranates: An X-ray Spectroscopic Study.

1. Application of multi-edge HERFD-XAS to assess the uranium valence electronic structure in potassium uranate (KUO3).

2. A new μ-high energy resolution fluorescence detection microprobe imaging spectrometer at the Stanford Synchrotron Radiation Lightsource beamline 6-2.

3. X-ray spectroscopic study of chemical state in uranium carbides.

Review 4. High-energy resolution X-ray spectroscopy at actinide M4,5 and ligand K edges: what we know, what we want to know, and what we can know.

5. A New Look at the Structural and Magnetic Properties of Potassium Neptunate K2NpO4 Combining XRD, XANES Spectroscopy, and Low-Temperature Heat Capacity.

6. A Novel Metastable Pentavalent Plutonium Solid Phase on the Pathway from Aqueous Plutonium(VI) to PuO2 Nanoparticles.

7. The Application of HEXS and HERFD XANES for Accurate Structural Characterisation of Actinide Nanomaterials: The Case of ThO2.

1. Application of multi-edge HERFD-XAS to assess the uranium valence electronic structure in potassium uranate (KUO₃).

Review 4. High-energy resolution X-ray spectroscopy at actinide M_4,5 and ligand K edges: what we know, what we want to know, and what we can know.

5. A New Look at the Structural and Magnetic Properties of Potassium Neptunate K₂NpO₄ Combining XRD, XANES Spectroscopy, and Low-Temperature Heat Capacity.

6. A Novel Metastable Pentavalent Plutonium Solid Phase on the Pathway from Aqueous Plutonium(VI) to PuO₂ Nanoparticles.

7. The Application of HEXS and HERFD XANES for Accurate Structural Characterisation of Actinide Nanomaterials: The Case of ThO₂.