Kazunari Ezaki scite author profile

Kazunari Ezaki

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70Citation Statements Given

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University of Hyogo

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Proton Order–Disorder Phenomena in a Hydrogen‐Bonded Rhodium–η⁵‐Semiquinone Complex: A Possible Dielectric Response Mechanism

Mitsumi

Ezaki

Komatsu

et al. 2015

Chemistry A European J

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A newly synthesized one-dimensional (1D) hydrogen-bonded (H-bonded) rhodium(II)-η(5)-semiquinone complex, [Cp*Rh(η(5)-p-HSQ-Me4)]PF6 ([1]PF6; Cp* = 1,2,3,4,5-pentamethylcyclopentadienyl; HSQ = semiquinone) exhibits a paraelectric-antiferroelectric second-order phase transition at 237.1 K. Neutron and X-ray crystal structure analyses reveal that the H-bonded proton is disordered over two sites in the room-temperature (RT) phase. The phase transition would arise from this proton disorder together with rotation or libration of the Cp* ring and PF6(-) ion. The relative permittivity εb' along the H-bonded chains reaches relatively high values (ca., 130) in the RT phase. The temperature dependence of (13)C CP/MAS NMR spectra demonstrates that the proton is dynamically disordered in the RT phase and that the proton exchange has already occurred in the low-temperature (LT) phase. Rate constants for the proton exchange are estimated to be 10(-4)-10(-6) s in the temperature range of 240-270 K. DFT calculations predict that the protonation/deprotonation of [1](+) leads to interesting hapticity changes of the semiquinone ligand accompanied by reduction/oxidation by the π-bonded rhodium fragment, producing the stable η(6)-hydroquinone complex, [Cp*Rh(3+)(η(6)-p-H2Q-Me4)](2+) ([2](2+)), and η(4)-benzoquinone complex, [Cp*Rh(+)(η(4)-p-BQ-Me4)] ([3]), respectively. Possible mechanisms leading to the dielectric response are discussed on the basis of the migration of the protonic solitons comprising of [2](2+) and [3], which would be generated in the H-bonded chain.

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Frontispiece: Proton Order–Disorder Phenomena in a Hydrogen‐Bonded Rhodium–η⁵‐Semiquinone Complex: A Possible Dielectric Response Mechanism

Mitsumi¹,

Ezaki²,

Komatsu³

et al. 2015

Chemistry A European J

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Proton Dynamics In their Full Paper on , M. Mitsumi et al. report a hydrogen‐bonded rhodium(II)–η5‐semiquinone complex that exhibits a paraelectric–antiferroelectric second‐order phase transition at 237.1 K. Dielectric and 13C CP/MAS NMR measurements revealed for the first time the relationship between the very first dielectric response of the hydrogen‐bonded proton and proton exchange rates. The dielectric response can be attributed to the rapid migration of the protonic solitons composed of η6‐hydroquinone and η4‐benzoquinone complexes, which would be generated in the hydrogen‐bonded chain.

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Kazunari Ezaki

Proton Order–Disorder Phenomena in a Hydrogen‐Bonded Rhodium–η⁵‐Semiquinone Complex: A Possible Dielectric Response Mechanism

Frontispiece: Proton Order–Disorder Phenomena in a Hydrogen‐Bonded Rhodium–η⁵‐Semiquinone Complex: A Possible Dielectric Response Mechanism

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Kazunari Ezaki

Proton Order–Disorder Phenomena in a Hydrogen‐Bonded Rhodium–η5‐Semiquinone Complex: A Possible Dielectric Response Mechanism

Frontispiece: Proton Order–Disorder Phenomena in a Hydrogen‐Bonded Rhodium–η5‐Semiquinone Complex: A Possible Dielectric Response Mechanism

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Proton Order–Disorder Phenomena in a Hydrogen‐Bonded Rhodium–η⁵‐Semiquinone Complex: A Possible Dielectric Response Mechanism

Frontispiece: Proton Order–Disorder Phenomena in a Hydrogen‐Bonded Rhodium–η⁵‐Semiquinone Complex: A Possible Dielectric Response Mechanism