Contemporary Assessment of Energy Degeneracy in Orbital Mixing with Tetravalent f-Block Compounds

Pereiro, Felipe A.; Galley, Shane S.; Jackson, Jessica A.; Shafer, Jenifer C.

doi:10.1021/acs.inorgchem.3c03828

Inorg. Chem.

2024

DOI: 10.1021/acs.inorgchem.3c03828

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Contemporary Assessment of Energy Degeneracy in Orbital Mixing with Tetravalent f-Block Compounds

Felipe A. Pereiro,

Shane S. Galley,

Jessica A. Jackson

et al.

Abstract: The f block is a comparatively understudied group of elements that find applications in many areas. Continued development of technologies involving the lanthanides (Ln) and actinides (An) requires a better fundamental understanding of their chemistry. Specifically, characterizing the electronic structure of the f elements presents a significant challenge due to the spatially core-like but energetically valence-like nature of the f orbitals. This duality led f-block scientists to hypothesize for decades that f-… Show more

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Cited by 5 publications

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A cyanide-bridged FeII/FeIII mixed-valence chain exhibiting spin transition in the Fe(II) sites

Li,

Kang,

et al. 2024

Inorganic Chemistry Communications

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A cyanide-bridged FeII/FeIII mixed-valence chain exhibiting spin transition in the Fe(II) sites

Li,

Kang,

et al. 2024

Inorganic Chemistry Communications

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Electronic structure and chemical bond in MdO2

Teterin,

Ryzhkov,

Putkov

et al. 2024

Mendeleev Communications

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The Counterintuitive Relationship between Orbital Energy, Orbital Overlap, and Bond Covalency in CeF₆^2– and CeCl₆^2–

Branson,

Smith,

Sergentu

et al. 2024

J. Am. Chem. Soc.

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The 4f orbitals of Ce(IV) have shown appreciably enhanced covalent mixing with ligand orbitals relative to those of Ce(III). Here, X-ray spectroscopy, magnetic susceptibility measurements, and theoretical methods are used to investigate 4f covalency in CeF 6 2– and CeCl 6 2– . These techniques show covalent mixing between Ce 4f and F 2p orbitals to be about 25% less than mixing between Ce 4f and Cl 3p orbitals, placing CeF 6 2– among the most ionic Ce(IV) compounds to-date. However, ligand field analysis using the experimental data shows significantly higher 4f orbital overlap with the F 2p orbitals compared to the Cl 3p. This result is counterintuitive since the Ce–F bonds display less 4f covalency despite their higher orbital overlap, and greater overlap is traditionally associated with enhanced bond covalency. The weaker covalency is attributed to the large energy gap between Ce 4f and F 2p orbitals strongly counteracting the higher orbital overlap. These results highlight that only a concerted consideration of both atomic orbital overlap and energy matching in f-element systems leads to an accurate picture of their bonding.

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Contemporary Assessment of Energy Degeneracy in Orbital Mixing with Tetravalent f-Block Compounds

Cited by 5 publications

References 110 publications

A cyanide-bridged FeII/FeIII mixed-valence chain exhibiting spin transition in the Fe(II) sites

A cyanide-bridged FeII/FeIII mixed-valence chain exhibiting spin transition in the Fe(II) sites

Electronic structure and chemical bond in MdO2

The Counterintuitive Relationship between Orbital Energy, Orbital Overlap, and Bond Covalency in CeF₆^2– and CeCl₆^2–

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Contemporary Assessment of Energy Degeneracy in Orbital Mixing with Tetravalent f-Block Compounds

Cited by 5 publications

References 110 publications

A cyanide-bridged FeII/FeIII mixed-valence chain exhibiting spin transition in the Fe(II) sites

A cyanide-bridged FeII/FeIII mixed-valence chain exhibiting spin transition in the Fe(II) sites

Electronic structure and chemical bond in MdO2

The Counterintuitive Relationship between Orbital Energy, Orbital Overlap, and Bond Covalency in CeF62– and CeCl62–

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The Counterintuitive Relationship between Orbital Energy, Orbital Overlap, and Bond Covalency in CeF₆^2– and CeCl₆^2–