Factors Affecting Voltammetric Responses for Redox-active Solid Layers of Li4Ti5O12 Coated on Electrodes
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概要
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Instead of W. R. McKinnon1) theory based on interaction energy in lattice-gas model, which has been used widely to analyze the charge-discharge curve for electrode materials of lithium ion battery, Laviron’s7) and Matsuda’s8) theoretical treatments about the cyclic voltammetry (CV) for the electro-active molecular confined on an electrode are applied for clarifying the experimentally accessible physical quantities, i.e. the parameters of electrostatic interaction between redox sites and of electrode kinetics for the Li4Ti5O12 (LTO) solid-state layers. From the width at half height (ΔEp 1/2) of the reversible CV at slowest potential scan-rate, the corresponding attractive force in their active-materials was evaluated as W/RT=1.64 (4.07 kJ mol−1), being an identical factor for the interaction energy evaluated by the lattice-gas model. From the shift of peak potential and the changes of ΔEp 1/2 and peak current for the irreversible CVs against the moderate potential scan-rates, the values of the rate constant (k°’ s−1) and the transfer coefficients (α) regarding a redox-electrode reaction process were evaluated as 6.7×10−3 and 0.47–0.48, respectively. The interaction parameter ΔW‡/RT being related to the kinetics of the electrode process was evaluated as −4.28∼−4.68.
著者
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SHIMOMURA Takeshi
Department of Advanced Materials Science, Graduate School of Frontier Sciences, University of Tokyo
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Oyama Noboru
Department Of Applied Chemistry Faculty Of Technology Tokyo University Of Agriculture And Technology
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Yamaguchi Shuichiro
Department Of Applied Chemistry Graduate School Of Science And Technology Tokyo University Of Agricu
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SHIMOMURA Takeshi
Department of Applied Chemistry, Graduate School of Engineering, Tokyo University of Agriculture and Technology
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MOCHIZUKI Yasumasa
Department of Applied Chemistry, Graduate School of Engineering, Tokyo University of Agriculture and Technology
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SARUKAWA Tomoo
Department of Applied Chemistry, Graduate School of Engineering, Tokyo University of Agriculture and Technology
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OYAMA Noboru
Department of Applied Chemistry, Graduate School of Engineering, Tokyo University of Agriculture and Technology
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