Global Mineralogical and Aqueous Mars History Derived from OMEGA/Mars Express Data

One of the long standing debates in actinide chemistry is the level of localization and participation of the actinide 5f valence orbitals in covalent bonds across the actinide series. Here we illuminate the role of the 5f valence orbitals of uranium, neptunium and plutonium in chemical bonding using advanced spectroscopies: actinide M4,5 HR-XANES and 3d4f RIXS. Results reveal that the 5f orbitals are active in the chemical bonding for uranium and neptunium, shown by significant variations in the level of their localization evidenced in the spectra. In contrast, the 5f orbitals of plutonium appear localized and surprisingly insensitive to different bonding environments. We envisage that this report of using relative energy differences between the 5fδ/ϕ and 5fπ*/5fσ* orbitals as a qualitative measure of overlap-driven actinyl bond covalency will spark activity, and extend to numerous applications of RIXS and HR-XANES to gain new insights into the electronic structures of the actinide elements.

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Uranium Redox Transformations after U(VI) Coprecipitation with Magnetite Nanoparticles

Pidchenko

Kvashnina

Yokosawa

et al. 2017

Environ. Sci. Technol.

121

129

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Uranium redox states and speciation in magnetite nanoparticles coprecipitated with U(VI) for uranium loadings varying from 1000 to 10 000 ppm are investigated by X-ray absorption spectroscopy (XAS). It is demonstrated that the U M high energy resolution X-ray absorption near edge structure (HR-XANES) method is capable to clearly characterize U(IV), U(V), and U(VI) existing simultaneously in the same sample. The contributions of the three different uranium redox states are quantified with the iterative transformation factor analysis (ITFA) method. U L XAS and transmission electron microscopy (TEM) reveal that initially sorbed U(VI) species recrystallize to nonstoichiometric UO nanoparticles within 147 days when stored under anoxic conditions. These U(IV) species oxidize again when exposed to air. U M HR-XANES data demonstrate strong contribution of U(V) at day 10 and that U(V) remains stable over 142 days under ambient conditions as shown for magnetite nanoparticles containing 1000 ppm U. U L XAS indicates that this U(V) species is protected from oxidation likely incorporated into octahedral magnetite sites. XAS results are supported by density functional theory (DFT) calculations. Further characterization of the samples include powder X-ray diffraction (pXRD), scanning electron microscopy (SEM) and Fe 2p X-ray photoelectron spectroscopy (XPS).

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Recent advances in the study of the UO2–PuO2 phase diagram at high temperatures

Böhler

Welland

Prieur

et al. 2014

Journal of Nuclear Materials

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The missing pieces of the PuO₂nanoparticle puzzle

et al. 2020

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I. Pidchenko

The role of the 5f valence orbitals of early actinides in chemical bonding

Uranium Redox Transformations after U(VI) Coprecipitation with Magnetite Nanoparticles

Recent advances in the study of the UO2–PuO2 phase diagram at high temperatures

The missing pieces of the PuO₂nanoparticle puzzle

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Product

Resources

About

I. Pidchenko

The role of the 5f valence orbitals of early actinides in chemical bonding

Uranium Redox Transformations after U(VI) Coprecipitation with Magnetite Nanoparticles

Recent advances in the study of the UO2–PuO2 phase diagram at high temperatures

The missing pieces of the PuO2nanoparticle puzzle

Contact Info

Product

Resources

About

The missing pieces of the PuO₂nanoparticle puzzle