Quantitative analysis of the lithium transport through the $Li_{1-δ}CoO_2$ film electrode prepared by RF magnetron sputtering = RF 마그네트론 스퍼터링법으로 제조된 $Li_{1-δ}CoO_2$ 박막 전극을 통한 리튬 이동의 정량적 해석

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The present work is concerned with the electrochemical lithium intercalation into and deintercalation from the $Li_{1-δ}CoO_2$ film electrode prepared by rf magnetron sputtering. In Chapter Ⅳ-1, lithium transport through the $Li_{1-δ}CoO_2$ film electrode was investigated in a 1 M solution of $LiClO_4$ in propylene carbonate using galvanostatic intermittent titration technique (GITT), electrochemical impedance spectroscopy (EIS), and potentiostatic current transient technique. All the experimental cathodic and anodic current transients in the presence of a single phase $Li_{1-δ}CoO_2$ did not follow Cottrell behaviour, but Ohmic behaviour. This means the relationship between the initial current level and the applied potential step obeys Ohm`s law. In addition, the current transients obtained in the coexistence of two phases α and β were characterised in a flatter shape, as compared to those transients in the presence of the respective α phase and β phase. And the plateau current level was proportional to be the difference in value between the applied potential and the plateau potential. From these results, it was suggested that the flux of the lithium ion at the electrode/electrolyte interface during the lithium transport is purely limited by ‘cell-impedance’, not only in the presence of a single phase, but also in the coexistence of two phases. The value of ‘cell-impedance’ calculated from the current transient was almost equal to be those obtained from the impedance spectra and the galvanostatic discharge curve. The current transients were modelled under the assumption of the ‘cell-impedance controlled’ lithium insertion/desertion. The current transients theoretically calculated coincided well with those experimentally measured in value and shape. In Chapter Ⅳ-2, two important factors affecting the ‘cell-impedance controlled’ lithium insertion/desertion were examined: One is the effect of the surface roughness of the oxide on the lithium transport. The curren...
Pyun, Su-Il변수일
한국과학기술원 : 재료공학과
Issue Date
166029/325007 / 000993022

학위논문(석사) - 한국과학기술원 : 재료공학과, 2001.2, [ viii, 87 p. ]


cell-impedance; RF magnetron sputtering; current transient; $Li_{1-δ}CoO_2$ film electrode; numerical simulation; 수치 해석; 셀 저항; 전류추이곡선; RF 마그네트론 스퍼터링; 리튬 코발트 옥사이드 박막 전극

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