Abstract

Amorphous titanium oxide was prepared by a sol-gel route employing Ti(IV) alkoxide as a starting agent. The average size of the primary particles was about 4 nm, and the Brunauer-Emmett-Teller specific surface area was 390 m2 g−1. Addition of acetylene black in synthesis allowed us to obtain the composite of titania and carbon materials. The composite materials could be galvanostaticly discharged and charged around 2 V vs. After thermal treatment at 330°C the composite showed specific capacity above 125 mA h g−1, even under large discharge current of 10 A g−1. Based on the relationship between specific capacity and current density, the chemical diffusion coefficient of lithium was estimated to be © 2004 The Electrochemical Society. All rights reserved.

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