A New Family of Anionic FeIII Spin Crossover Complexes Featuring a Weak-Field N2O4 Coordination Octahedron

Kazuyuki Takahashi; Kiko Kawamukai; Mitsunobu Okai; Tomoyuki Mochida; Takahiro Sakurai; Hitoshi Ohta; Takashi Yamamoto; Yasuaki Einaga; Yoshihito Shiota; Kazunari Yoshizawa

doi:10.1002/chem.201504883

A New Family of Anionic Fe^III Spin Crossover Complexes Featuring a Weak-Field N₂O₄ Coordination Octahedron

Kazuyuki Takahashi, Kiko Kawamukai, Mitsunobu Okai, Tomoyuki Mochida, Takahiro Sakurai, Hitoshi Ohta, Takashi Yamamoto, Yasuaki Einaga, Yoshihito Shiota, Kazunari Yoshizawa

Department of Fundamental Organic Chemistry

Research output: Contribution to journal › Article › peer-review

37 Citations (Scopus)

Abstract

Unprecedented anionic Fe^III spin crossover (SCO) complexes involving a weak-field O,N,O-tridentate ligand were discovered. The SCO transition was evidenced by the temperature variations in magnetic susceptibility, Mössbauer spectrum, and coordination structure. The DFT calculations suggested that larger coefficients on the azo group in the HOMO-1 of a ligand might contribute to the enhancement of a ligand-field splitting energy. The present anionic SCO complex also exhibited the light- induced excited-spin-state trapping effect. Photoinduced spin transition: Unprecedented anionic spin crossover (SCO) complexes involving a weak-field Fe^IIIN₂O₄ coordination sphere were discovered. The tetramethylammonium salt of the depicted SCO anion exhibited the light-induced excited-spin-state trapping effect, which is quite rare in Fe^III SCO complexes (see scheme).

Original language	English
Pages (from-to)	1253-1257
Number of pages	5
Journal	Chemistry - A European Journal
Volume	22
Issue number	4
DOIs	https://doi.org/10.1002/chem.201504883
Publication status	Published - Jan 22 2016

All Science Journal Classification (ASJC) codes

Catalysis
Organic Chemistry

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10.1002/chem.201504883

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title = "A New Family of Anionic FeIII Spin Crossover Complexes Featuring a Weak-Field N2O4 Coordination Octahedron",

abstract = "Unprecedented anionic FeIII spin crossover (SCO) complexes involving a weak-field O,N,O-tridentate ligand were discovered. The SCO transition was evidenced by the temperature variations in magnetic susceptibility, M{\"o}ssbauer spectrum, and coordination structure. The DFT calculations suggested that larger coefficients on the azo group in the HOMO-1 of a ligand might contribute to the enhancement of a ligand-field splitting energy. The present anionic SCO complex also exhibited the light- induced excited-spin-state trapping effect. Photoinduced spin transition: Unprecedented anionic spin crossover (SCO) complexes involving a weak-field FeIIIN2O4 coordination sphere were discovered. The tetramethylammonium salt of the depicted SCO anion exhibited the light-induced excited-spin-state trapping effect, which is quite rare in FeIII SCO complexes (see scheme).",

author = "Kazuyuki Takahashi and Kiko Kawamukai and Mitsunobu Okai and Tomoyuki Mochida and Takahiro Sakurai and Hitoshi Ohta and Takashi Yamamoto and Yasuaki Einaga and Yoshihito Shiota and Kazunari Yoshizawa",

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AU - Takahashi, Kazuyuki

AU - Kawamukai, Kiko

AU - Okai, Mitsunobu

AU - Mochida, Tomoyuki

AU - Sakurai, Takahiro

AU - Ohta, Hitoshi

AU - Yamamoto, Takashi

AU - Einaga, Yasuaki

AU - Shiota, Yoshihito

AU - Yoshizawa, Kazunari

PY - 2016/1/22

Y1 - 2016/1/22

N2 - Unprecedented anionic FeIII spin crossover (SCO) complexes involving a weak-field O,N,O-tridentate ligand were discovered. The SCO transition was evidenced by the temperature variations in magnetic susceptibility, Mössbauer spectrum, and coordination structure. The DFT calculations suggested that larger coefficients on the azo group in the HOMO-1 of a ligand might contribute to the enhancement of a ligand-field splitting energy. The present anionic SCO complex also exhibited the light- induced excited-spin-state trapping effect. Photoinduced spin transition: Unprecedented anionic spin crossover (SCO) complexes involving a weak-field FeIIIN2O4 coordination sphere were discovered. The tetramethylammonium salt of the depicted SCO anion exhibited the light-induced excited-spin-state trapping effect, which is quite rare in FeIII SCO complexes (see scheme).

AB - Unprecedented anionic FeIII spin crossover (SCO) complexes involving a weak-field O,N,O-tridentate ligand were discovered. The SCO transition was evidenced by the temperature variations in magnetic susceptibility, Mössbauer spectrum, and coordination structure. The DFT calculations suggested that larger coefficients on the azo group in the HOMO-1 of a ligand might contribute to the enhancement of a ligand-field splitting energy. The present anionic SCO complex also exhibited the light- induced excited-spin-state trapping effect. Photoinduced spin transition: Unprecedented anionic spin crossover (SCO) complexes involving a weak-field FeIIIN2O4 coordination sphere were discovered. The tetramethylammonium salt of the depicted SCO anion exhibited the light-induced excited-spin-state trapping effect, which is quite rare in FeIII SCO complexes (see scheme).

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A New Family of Anionic Fe^III Spin Crossover Complexes Featuring a Weak-Field N₂O₄ Coordination Octahedron

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