Investigation of Lithium Ion Diffusion Behavior in a Li4Ti5O12 Thin Film Electrode by In Situ UV-Visible Measurements

Young Ho Rho; Kiyoshi Kanamura

doi:10.4028/www.scientific.net/KEM.248.155

Paper Titles

Improvement of C-V Characteristics and Control of Interlayer Growth of Rare Earth Oxide Stabilized Zirconia Epitaxial Gate Dielectrics
p.137

Cathodic Behavior of Layered Manganese Oxides from Potassium Permanganate for Rechargeable Lithium Cells
p.143

Safety and Cycle Life of Non-Aqueous Lithium Cells with Organic Additives
p.147

Lithium Intercalation Properties of Hydrogen Octatitanate Hydrates with Tunnel Structure
p.151

Investigation of Lithium Ion Diffusion Behavior in a Li₄Ti₅O₁₂ Thin Film Electrode by In Situ UV-Visible Measurements
p.155

Grain-Size Dependence of the Characteristics of Electromagnetic Wave Absorbers of Ferrite-SiO₂ Composites
p.161

Effect of Remanent Magnetization of Ferromagnetic Thin Film on I-V Characteristics of MOS Transistor: I-V Characteristics by Epitaxial (Mn, Zn)Fe₂O₄ Thin Film on Gate Area
p.165

Orientation Control and Domain Structure of Epitaxial (Ni,Zn)Fe₂O₄ Thin Film for Ferromagnetic Memory Applications
p.169

Effect of Remanent Magnetization of Ferromagnetic Thin Film on I-V Characteristics of MOS Transistor : I-V Characteristics of Circular and Opposite Patterned Ferromagnetic Thin Film Across Gate Area
p.173

HomeKey Engineering MaterialsKey Engineering Materials Vol. 248Investigation of Lithium Ion Diffusion Behavior in...

Investigation of Lithium Ion Diffusion Behavior in a Li₄Ti₅O₁₂ Thin Film Electrode by In Situ UV-Visible Measurements

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Key Engineering Materials (Volume 248)

Pages:

155-160

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.248.155

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Online since:

August 2003

Authors:

Young Ho Rho, Kiyoshi Kanamura

Keywords:

Diffusion, Electrochromics, Li₄Ti₅O₁₂, Rechargeable Lithium Batteries, Sol-Gel Method, UV-Visible

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