Philippe Knauth scite author profile

We investigate the fabrication of an alternative electrode for lithium-ion batteries. The active material consists of self-organized TiO 2 nanotube layers prepared by a simple anodization process. The performances of this type of nanostructured electrode are studied by the combination of structural techniques (Scanning electron microscopy and X-ray diffraction) and electrochemical tests. The discharge/charge properties and cycling performance characteristics are studied for both amorphous and crystalline titania nanotubes. With a maximum areal capacity of 77 µA h cm -2 , a good capacity retention up to 90% over 50 cycles, nanotubular TiO 2 is a promising electrode for rechargeable Li-ion microbatteries.

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Three‐Dimensional Self‐Supported Metal Oxides for Advanced Energy Storage

Ellis

2014

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The miniaturization of power sources aimed at integration into micro- and nano-electronic devices is a big challenge. To ensure the future development of fully autonomous on-board systems, electrodes based on self-supported 3D nanostructured metal oxides have become increasingly important, and their impact is particularly significant when considering the miniaturization of energy storage systems. This review describes recent advances in the development of self-supported 3D nanostructured metal oxides as electrodes for innovative power sources, particularly Li-ion batteries and electrochemical supercapacitors. Current strategies for the design and morphology control of self-supported electrodes fabricated using template, lithography, anodization and self-organized solution techniques are outlined along with different efforts to improve the storage capacity, rate capability, and cyclability.

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Philippe Knauth

Inorganic solid Li ion conductors: An overview

Alternative Li-Ion Battery Electrode Based on Self-Organized Titania Nanotubes

Three‐Dimensional Self‐Supported Metal Oxides for Advanced Energy Storage

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