Kyle W. Kriegsman scite author profile

Intrinsic properties of a compound (e.g. electronic structure, crystallographic structure, optical and magnetic properties) define notably its chemical and physical behavior. In the case of nanomaterials, these fundamental properties depend on the occurrence of quantum mechanical size effects and on the considerable increase of the surface to bulk ratio. However, the literature on this size-dependence and on the involved mechanisms is quite elusive and scarce. Here, we explore the size-dependence of both crystal and electronic properties of CeO2 nanoparticles (NPs) with different sizes by state-of-the art spectroscopic techniques. XRD, XPS and HERFD-XANES demonstrate that the as-synthesized NPs crystallize in the fluorite structure and they are predominantly composed of Ce IV ions. The strong dependence of the lattice parameter with the NPs size was attributed to the presence of adsorbed species at the NPs surface thanks to FTIR and TGA measurements. In addition, the size-dependence of the t2g level in the Ce LIII XANES spectra was experimentally observed by HERFD-XANES and confirmed by theoretical calculations.

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Thermodynamics of CeSiO₄: Implications for Actinide Orthosilicates

Strzelecki

Bourgeois

Kriegsman

et al. 2020

Inorg. Chem.

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The mineral zircon (ZrSiO 4 : I4 1 /amd) can accommodate natural actinides, such as thorium and uranium. The zircon structure has also been obtained for several of the end member compositions of other actinides, such as plutonium and neptunium. However, the thermodynamic properties of these actinide zircon structure-types are largely unknown due to the difficulties in synthesizing these materials and handling transuranium actinides. Thus, we have completed a thermodynamic study of cerium orthosilicate, stetindite (CeSiO 4), a surrogate of PuSiO 4. For the first time, the standard enthalpy of formation of CeSiO 4 was obtained by high temperature oxide melt solution calorimetry to be-1971.9 ± 3.6 kJ/mol. Stetindite is energetically metastable with respect to CeO 2 and SiO 2 by 27.5 ± 3.1 kJ/mol. The metastability explains the rarity of the natural occurrence of stetindite and the difficulty of its synthesis. Applying the obtained enthalpy of formation of CeSiO 4 from this work, along with those previously reported for USiO 4 and ThSiO 4 , we developed an empirical energetic relation for actinide orthosilicates. The predicted enthalpies of formation of AnSiO 4 are then made with a discussion of future strategies to efficiently immobilize Pu or minor actinides in the zircon structure.

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Oxidation and anion lattice defect signatures of hypostoichiometric lanthanide-doped UO2

Olds¹,

Karcher²,

Kriegsman³

et al. 2020

Journal of Nuclear Materials

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Efficient oxidative desulfurization using a mesoporous Zr-based MOF

Hao

Hurlock

et al. 2020

Catalysis Today

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Evolution of 14-Connected Zr₆ Secondary Building Units through Postsynthetic Linker Incorporation

Hurlock

Hao

Kriegsman

et al. 2021

ACS Appl. Mater. Interfaces

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Two new zirconium MOFs, WSU-6 and WSU-7, were synthesized through postsynthetic modifications. In both cases, linker insertion was conducted on a MOF consisting of eight-connected (8-c) Zr 6 cluster and four-connected (4-c) ETTC linker, WSU-5, which possesses the uncommon 4, 8-c scu-c topology. The insertion of 1, 4benzenedicarboxylate into the MOF formed the new 4, 12-c mjh topology, WSU-6. Interestingly, when 2, 6-naphthalenedicarboxylate was inserted, WSU-7 can be formed, which possesses a new 4, 14-c jkz topology. WSU-7 contains very rare 14-c Zr 6 secondary building units (SBUs) and is the first MOF to have a Zr 6 SBUs with connectivity greater than 12. The three Zr-MOFs were structurally characterized, and the photoluminescence properties of the materials were also studied.

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Kyle W. Kriegsman

Size Dependence of Lattice Parameter and Electronic Structure in CeO₂ Nanoparticles

Thermodynamics of CeSiO₄: Implications for Actinide Orthosilicates

Oxidation and anion lattice defect signatures of hypostoichiometric lanthanide-doped UO2

Efficient oxidative desulfurization using a mesoporous Zr-based MOF

Evolution of 14-Connected Zr₆ Secondary Building Units through Postsynthetic Linker Incorporation

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Kyle W. Kriegsman

Size Dependence of Lattice Parameter and Electronic Structure in CeO2 Nanoparticles

Thermodynamics of CeSiO4: Implications for Actinide Orthosilicates

Oxidation and anion lattice defect signatures of hypostoichiometric lanthanide-doped UO2

Efficient oxidative desulfurization using a mesoporous Zr-based MOF

Evolution of 14-Connected Zr6 Secondary Building Units through Postsynthetic Linker Incorporation

Contact Info

Product

Resources

About

Size Dependence of Lattice Parameter and Electronic Structure in CeO₂ Nanoparticles

Thermodynamics of CeSiO₄: Implications for Actinide Orthosilicates

Evolution of 14-Connected Zr₆ Secondary Building Units through Postsynthetic Linker Incorporation