Multi-layered composite electrodes of high power Li4Ti5O12 and high capacity SnO2 for smart lithium ion storage

<p>Discrete layering of high power Li₄Ti₅O₁₂&nbsp;and high capacity SnO₂&nbsp;in a through-thickness multi-layered composite electrode was achieved using a layer-by-layer spray printing approach in order to explore new capacity-power combinations for lithium ion based electrochemical energy storage. Electrochemical behavior of multi-layered electrodes was optimized as a function of the thickness of the discrete SnO₂&nbsp;layer, in the range 2 to 6&nbsp;&micro;m, interleaved between two layers of low volume expansion Li₄Ti₅O₁₂. Three discrete layers of 2&nbsp;&micro;m SnO₂&nbsp;were then interleaved evenly between Li₄Ti₅O₁₂&nbsp;layers to produce a &ldquo;layer cake&rdquo; negative electrode cross-section that offered remarkable rate capability when coupled with a spray printed LiFePO₄&nbsp;positive electrode in a lithium ion battery arrangement. The multi-layered negative electrode was also coupled with a spray printed activated carbon positive electrode in a lithium ion capacitor configuration, providing significant improvements in energy density. The double-sided fabrication of the multi-layer electrode over a 20&nbsp;&times;&nbsp;20&nbsp;cm²&nbsp;current collector area suggested a possible hybrid electrochemical device that combines attributes of high capacity lithium ion batteries and high power lithium ion capacitors.</p>