Large Hyperfine Coupling Arising from Pseudo‑<sup>2</sup>S Ground States in a Series of Lutetium(II) Metallocene Complexes

Large Hyperfine Coupling Arising from Pseudo‑<sup>2</sup>S Ground States in a Series of Lutetium(II) Metallocene Complexes

The synthesis of molecules with strong coupling between electronic and nuclear spins represents an important challenge in molecular quantum information science. Here, we report the synthesis and characterization of the divalent lutetium metallocene complexes Lu­(Cp<sup>Me<sub>5</sub&g...

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Bibliographic Details
Main Author: Danh X. Ngo (6110606) (author)
Other Authors: K. Randall McClain (1453753) (author), Jakub Hrubý (18011418) (author), Yannick J. Franzke (6269168) (author), Krishnendu Kundu (1627648) (author), Hyunchul Kwon (8550282) (author), Colin A. Gould (11718795) (author), Benjamin G. Harvey (1265289) (author), Stephen Hill (1262349) (author), Jeffrey R. Long (1341528) (author)
Published: 2025
Subjects:
Biophysics
Biochemistry
Cell Biology
Neuroscience
Physiology
Evolutionary Biology
Space Science
Environmental Sciences not elsewhere classified
Biological Sciences not elsewhere classified
Chemical Sciences not elsewhere classified
Physical Sciences not elsewhere classified
nuclear spins represents
largest yet reported
largest yet observed
general strategy toward
17 ghz across
shell isolable complex
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strong hyperfine coupling
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line spectra indicates
extremely large splitting
computational analysis show
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orbital character 
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strong coupling
2 %
molecular orbital
lanthanide complex
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tetraisopropylcyclopentadienyl ).
slight deviation
results outline
ray diffraction
molecular structures
important challenge
ground states
free electron
ethyltetraisopropylcyclopentadienyl ),
crystal x
9 °
6 °.
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Summary:The synthesis of molecules with strong coupling between electronic and nuclear spins represents an important challenge in molecular quantum information science. Here, we report the synthesis and characterization of the divalent lutetium metallocene complexes Lu­(Cp<sup>Me<sub>5</sub></sup>)­(Cp<sup><i>i</i>Pr<sub>5</sub></sup>) (Cp<sup>Me<sub>5</sub></sup> = pentamethylcyclopentadienyl; Cp<sup><i>i</i>Pr<sub>5</sub></sup> = pentaisopropylcyclopentadienyl), Lu­(Cp<sup><i>i</i>Pr<sub>4</sub></sup><sup>Et</sup>)<sub>2</sub> (Cp<sup><i>i</i>Pr<sub>4</sub></sup><sup>Et</sup> = ethyltetraisopropylcyclopentadienyl), and Lu­(Cp<sup><i>i</i>Pr</sup><sup><sub>4</sub></sup>)<sub>2</sub> (Cp<sup><i>i</i>Pr<sub>4</sub></sup> = tetraisopropylcyclopentadienyl). The molecular structures of these complexes, as determined through single-crystal X-ray diffraction, feature a common bent sandwich geometry, with average Cp–Lu–Cp angles ranging from 159.9° to 152.6°. Analysis of continuous-wave electron paramagnetic resonance (EPR) spectra for the complexes reveals nearly isotropic <i>g</i> tensors with only a slight deviation from that of a free electron. Moreover, an extremely large splitting of the eight-line spectra indicates the presence of strong hyperfine coupling, and simulations provide isotropic hyperfine coupling constants of <i>A</i><sub>iso</sub> = 4.38, 4.30, and 4.17 GHz across the series, where the value of <i>A</i><sub>iso</sub> is found to decrease as the Cp–Lu–Cp angle becomes more acute. Notably, these values are the largest yet observed for any lanthanide complex. Moreover, EPR and computational analysis show that the large values of <i>A</i><sub>iso</sub> stem from large s-orbital characterup to 41.2%in the corresponding singly occupied molecular orbitals. To our knowledge, this degree of s-character in a molecular orbital is the largest yet reported for an open-shell isolable complex. These results outline a general strategy toward the isolation of paramagnetic molecules with strong hyperfine coupling and highly isotropic doublet electronic ground states.

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