Abstract
A first study on the electrochemical reaction between lithium and germania (β-quartz germanium oxide) is reported. Galvanostatic and potentiostatic discharges are defined by three voltage regions where different processestake place. In region I, delimited between open-circuit voltage and 0.65 V vs. Li + /Li, some germania particles may react with lithium to form an amorphous lithium germanate, (Li 2 O) y GeO 2 , detectable by infrared spectroscopic measurements. Crystallinity degradation is also observed in region II (0.55-0.35 V) where germania and lithium germanate react with 4.2 mol of Li to yield a germanium/lithia nanocomposite and LiGe. Region III (0.35-0.05 V) corresponds to further reaction between lithium and germanium particles that promotes huge volume changes in the electrode. A solid electrolyte interface (SEI) developed at every step of discharge thus consuming extra lithium. Both factors, the particles expansion and the SEI, are mainly responsible for capacity fade upon cycling.
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