Evidence for 5d-σ and 5d-π covalency in lanthanide sesquioxides from oxygen K-edge X-ray absorption spectroscopy

Altman, Alison B.; Pacold, J.I.; Wang, Jian; Lukens, Wayne W.; Minasian, Stefan G.

doi:10.1039/c6dt00358c

Cited by 43 publications

(73 citation statements)

References 171 publications

(307 reference statements)

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“…[71,72] This tiny covalenti nteraction between the 4f orbitals and the ligandsd oes not affect the chemicalp roperties, but, regardless of how small it might be, plays aq uantitative, even qualitative, role in the splitting of the 4f orbitals, and consequently,i mpacts on the magnetic properties.T his work shows that, as is sometimes the case in transition-metal complexes [73] and recently shown for actinidec omplexes, [74] CF and covalency are closely entangled. Dependingo nb otht he nature of the central cation and the ligands,m agnetization of the ground state is either axial or equatorial.…”

Section: Resultsmentioning

confidence: 99%

Crystal Field in Rare‐Earth Complexes: From Electrostatics to Bonding

Alessandri

Zulfikri

Autschbach

et al. 2018

Chemistry A European J

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The flexibility of first-principles (ab initio) calculations with the SO-CASSCF (complete active space self-consistent field theory with a treatment of the spin-orbit (SO) coupling by state interaction) method is used to quantify the electrostatic and covalent contributions to crystal field parameters. Two types of systems are chosen for illustration: 1) The ionic and experimentally well-characterized PrCl crystal; this study permits a revisitation of the partition of contributions proposed in the early days of crystal field theory; and 2) a series of sandwich molecules [Ln(η -C H ) ] , with Ln=Dy, Ho, Er, and Tm and n=5, 6, and 8, in which the interaction between Ln and the aromatic ligands is more difficult to describe within an electrostatic approach. It is shown that a model with three layers of charges reproduces the electrostatic field generated by the ligands and that the covalency plays a qualitative role. The one-electron character of crystal field theory is discussed and shown to be valuable, although it is not completely quantitative. This permits a reduction of the many-electron problem to a discussion of the energy of the seven 4f orbitals.

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Section: Resultsmentioning

confidence: 99%

Crystal Field in Rare‐Earth Complexes: From Electrostatics to Bonding

Alessandri

Zulfikri

Autschbach

et al. 2018

Chemistry A European J

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“…Ligand K‐edge X‐ray absorption spectroscopy (XAS) is a powerful method for experimentally quantifying differences in covalent metal–ligand bonding and electronic structure in transition metal, lanthanide, and actinide coordination compounds . Ligand K‐edge XAS – where ligand refers to the atom bound to the metal – uses synchrotron‐generated X‐rays to excite 1s electrons localized on the ligand into unoccupied molecular orbitals (MOs) containing ligand p character.…”

Section: Introductionmentioning

confidence: 99%

Solution and Solid‐State Ligand K‐Edge XAS Studies of PdCl₂ Diphosphine Complexes with Phenyl and Cyclohexyl Substituents

et al. 2018

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Here we report P K-edge X-ray absorption spectroscopy (XAS), density functional theory (DFT), and time-dependent density functional theory (TDDFT) studies of [R 2 P(CH 2 ) n PR 2 ]PdCl 2 , where R = phenyl or cyclohexyl and n = 1-3. P K-edge XAS data were collected on room temperature CH 2 Cl 2 solutions of [Ph 2 P(CH 2 ) n PPh 2 ]PdCl 2 , where n = 1 (dppm; 1), 2 (dppe; 2), or 3 (dppp; 3) to determine if solid-state variations in covalent Pd-P bonding reported previously (Inorg. Chem. 2015, 54, 5646) were present in solution. A flow cell was used to overcome challenges associated with photon-induced decomposition, which often occurs rapidly in solution during ligand K-edge XAS data collection at room temperature. While [a]

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“…11 These materials have been the subject of numerous synchrotron radiation based spectroscopy experiments, including X-ray photoelectron spectroscopy, 12 resonant inelastic X-ray scattering, 13 and X-ray absorption spectroscopies at the cerium L3, [7][8][14][15][16][17][18][19][20][21][22] M5,4-, 12,19,[23][24][25][26][27][28][29][30] and N5,4-edges, 12 as well as ligand K-edges. [31][32] Some of these studies have presented evidence for the importance of both 4f and 5d orbital contributions to covalency in Ce bonding. 15,18,[31][32][33][34][35][36] Extended solids including CeO2 have also served as important test cases for evaluating whether accurate theoretical methodology can treat the 4f-electrons simply as part of the core, or whether a more demanding approach should be followed that allows the 4f-electrons to delocalize and participate in bonding.…”

Section: Introductionmentioning

confidence: 99%

“…[31][32] Some of these studies have presented evidence for the importance of both 4f and 5d orbital contributions to covalency in Ce bonding. 15,18,[31][32][33][34][35][36] Extended solids including CeO2 have also served as important test cases for evaluating whether accurate theoretical methodology can treat the 4f-electrons simply as part of the core, or whether a more demanding approach should be followed that allows the 4f-electrons to delocalize and participate in bonding. [37][38][39][40][41][42][43][44][45][46] Cerium intermetallics have been at the forefront of condensed matter physics and development of the Anderson impurity model for heavy fermion systems and Kondo insulators.…”

Section: Introductionmentioning

confidence: 99%

A Macrocyclic Chelator That Selectively Binds Ln⁴⁺ over Ln³⁺ by a Factor of 10²⁹

et al. 2016

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Abstract.A tetravalent cerium macrocyclic complex (CeLK4) was prepared with an octadentate terephthalamide ligand comprised of hard catecholate donors, and characterized in the solution state by spectrophotometric titrations and electrochemistry, and in the crystal by X-ray diffraction. The solution state studies showed that L exhibits a remarkably high affinity towards Ce 4+ , with log β110 = 61(2) and ΔG = -348 kJ/mol, compared with log β110 = 32.02(2) for the analogous Pr 3+ complex. In addition, L exhibits an unusual preference for forming CeL 4-relative to formation of the analogous actinide complex, ThL 4-, which has β110 = 53.7(5). The extreme stabilization of tetravalent cerium relative to its trivalent state is also evidenced by the shift of 1.91 V in redox potential of the Ce 3+ /Ce 4+ couple of the complex (measured at -0.454 V vs. SHE). The unprecedented behavior prompted an electronic structure analysis using L3 and M5,4-edge X-ray absorption near-edge structure (XANES) spectroscopies and configuration interaction calculations, which showed that 4f orbital bonding in CeLK4 has partial covalent character owing to ligand-to-metal charge transfer (LMCT) in the ground state. The experimental results are presented in the context of earlier measurements on tetravalent cerium compounds, indicating that the amount LMCT for CeLK4 is similar to that observed for [Et4N]2[CeCl6] and CeO2, and significantly less than that for the organometallic sandwich compound cerocene, (C8H8)2Ce. A simple model to rationalize changes in 4f orbitals for tri-and tetravalent lanthanide and actinide compounds is also provided.

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Evidence for 5d-σ and 5d-π covalency in lanthanide sesquioxides from oxygen K-edge X-ray absorption spectroscopy

Cited by 43 publications

References 171 publications

Crystal Field in Rare‐Earth Complexes: From Electrostatics to Bonding

Crystal Field in Rare‐Earth Complexes: From Electrostatics to Bonding

Solution and Solid‐State Ligand K‐Edge XAS Studies of PdCl₂ Diphosphine Complexes with Phenyl and Cyclohexyl Substituents

A Macrocyclic Chelator That Selectively Binds Ln⁴⁺ over Ln³⁺ by a Factor of 10²⁹

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Evidence for 5d-σ and 5d-π covalency in lanthanide sesquioxides from oxygen K-edge X-ray absorption spectroscopy

Cited by 43 publications

References 171 publications

Crystal Field in Rare‐Earth Complexes: From Electrostatics to Bonding

Crystal Field in Rare‐Earth Complexes: From Electrostatics to Bonding

Solution and Solid‐State Ligand K‐Edge XAS Studies of PdCl2 Diphosphine Complexes with Phenyl and Cyclohexyl Substituents

A Macrocyclic Chelator That Selectively Binds Ln4+ over Ln3+ by a Factor of 1029

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Solution and Solid‐State Ligand K‐Edge XAS Studies of PdCl₂ Diphosphine Complexes with Phenyl and Cyclohexyl Substituents

A Macrocyclic Chelator That Selectively Binds Ln⁴⁺ over Ln³⁺ by a Factor of 10²⁹