Covalency in Americium(III) Hexachloride

Abstract: Developing a better understanding of covalency (or orbital mixing) is of fundamental importance. Covalency occupies a central role in directing chemical and physical properties for almost any given compound or material. Hence, the concept of covalency has potential to generate broad and substantial scientific advances, ranging from biological applications to condensed matter physics. Given the importance of orbital mixing combined with the difficultly in measuring covalency, estimating or inferring covalency o… Show more

“…To evaluate the possible changes in Pd–P covalency in solution and the solid‐state, we performed dispersion‐corrected DFT and TDDFT calculations on 1 – 3 with a polarizable continuum model to simulate the CH 2 Cl 2 solution. The B3LYP functional was again selected because it has been shown to be remarkably accurate in the simulation of experimental XAS spectra via time‐dependent density functional theory (TDDFT) , , , , , , . For consistency, TDDFT calculations for 1 – 3 from our previous study were recalculated with dispersion corrections for comparison to the dispersion‐corrected solution calculations presented here.…”

“…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.…”

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

“…To evaluate the possible changes in Pd–P covalency in solution and the solid‐state, we performed dispersion‐corrected DFT and TDDFT calculations on 1 – 3 with a polarizable continuum model to simulate the CH 2 Cl 2 solution. The B3LYP functional was again selected because it has been shown to be remarkably accurate in the simulation of experimental XAS spectra via time‐dependent density functional theory (TDDFT) , , , , , , . For consistency, TDDFT calculations for 1 – 3 from our previous study were recalculated with dispersion corrections for comparison to the dispersion‐corrected solution calculations presented here.…”

“…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.…”

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

“…For example, there is a body of evidence that demonstrates -in certain systemssubstantial 5f-and 6d-covalency exists. (2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14)(15)(16)(17)(18)(19)(20) These data are juxtaposed with numerous studies suggesting that An-ligand bonding is primarily ionic. (21) The later conclusions are fueled by several observables that include (but are not limited to) An-ligand bond distances being routinely predicted using actinide ionic radii and an appreciable body of spectroscopic data that shows the 5f  5f optical transitions are marginally impacted by the ligand field.…”

“…To directly address these challenges in actinide bonding, we have characterized covalency for Pu IV and the other early actinides (Th IV , U IV , Np IV ) within an Oh-AnCl6 2 framework using a combination of ligand K-edge X-ray absorption spectroscopy (XAS) (22) and spin-orbit density functional theory (DFT) transition dipole-moment calculations. (9,(23)(24)(25) This duo has recently emerged as one of the most powerful approaches for characterizing metal-ligand covalency. For example, ligand K-edge XAS probes dipole-allowed bound-state transitions from the ligand 1sorbitals to molecular orbitals that contain ligand p-character resulting from metal-ligand orbital mixing.…”

Energy-Degeneracy-Driven Covalency in Actinide Bonding

“…Indeed, the Los Alamos group has very recently reported their first application of ligand K-edge XAS to at ransuranic target;A mCl 6 3À . [39] Given the discussions presented in this review concerning the radial extent of the 5f orbitals as the actinides eries is traversed, it is not surprising to learn that this latest study finds significantly more Am 6dbased covalency than 5f.…”

Transuranic Computational Chemistry