A linear cobalt(II) complex with maximal orbital angular momentum from a non-Aufbau ground state

Orbital angular momentum is a prerequisite for magnetic anisotropy, although in transition metal complexes it is typically quenched by the ligand field. By reducing the basicity of the carbon donor atoms in a pair of alkyl ligands, we synthesized a cobalt(II) dialkyl complex, Co(C(SiMe2ONaph)3)2 (where Me is methyl and Naph is a naphthyl group), wherein the ligand field is sufficiently weak that interelectron repulsion and spin-orbit coupling play a dominant role in determining the electronic ground state. Assignment of a non-Aufbau (d x2-y2 , d xy )3(d xz , d yz )3(d z2 )1 electron configuration is supported by dc magnetic susceptibility data, experimental charge density maps, and ab initio calculations. Variable-field far-infrared spectroscopy and ac magnetic susceptibility measurements further reveal slow magnetic relaxation via a 450-wave number magnetic excited state.

How to cite this publication

Philip C. Bunting, Mihail Atanasov, Emil Damgaard‐Møller, Mauro Perfetti, Iris Crassee, M. Orlita, Jacob Overgaard, Joris van Slageren, Frank Neese, Jeffrey Long (2018). A linear cobalt(II) complex with maximal orbital angular momentum from a non-Aufbau ground state. Science, 362(6421), DOI: 10.1126/science.aat7319.

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Publication Details

Type

Article

Year

2018

Authors

10

Datasets

0

Total Files

0

Language

English

Journal

Science

DOI

10.1126/science.aat7319

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