Direct Observation of Very Large Zero-Field Splitting in a Tetrahedral NiIISe4 Coordination Complex

Shang‐Da Jiang; Dimitrios Maganas; Nikolaos Levesanos; Eleftherios Ferentinos; Sabrina Haas; Komalavalli Thirunavukkuarasu; J. Krzystek; Martin Dressel; Lapo Bogani; Frank Neese; Panayotis Kyritsis

doi:10.1021/jacs.5b06716

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Direct Observation of Very Large Zero-Field Splitting in a Tetrahedral NiIISe4 Coordination Complex

Journal of the American Chemical Society 137(40): 12923-12928

Article 2015 English

Authors

SJ
Shang‐Da Jiang
DM
Dimitrios Maganas
NL
Nikolaos Levesanos

Abstract

1 min read

The high-spin (S = 1) tetrahedral Ni(II) complex [Ni{(i)Pr2P(Se)NP(Se)(i)Pr2}2] was investigated by magnetometry, spectroscopic, and quantum chemical methods. Angle-resolved magnetometry studies revealed the orientation of the magnetization principal axes. The very large zero-field splitting (zfs), D = 45.40(2) cm(-1), E = 1.91(2) cm(-1), of the complex was accurately determined by far-infrared magnetic spectroscopy, directly observing transitions between the spin sublevels of the triplet ground state. These are the largest zfs values ever determined--directly--for a high-spin Ni(II) complex. Ab initio calculations further probed the electronic structure of the system, elucidating the factors controlling the sign and magnitude of D. The latter is dominated by spin-orbit coupling contributions of the Ni ions, whereas the corresponding effects of the Se atoms are remarkably smaller.

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