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Multiscale Engineered Si/SiO Nanocomposite Electrodes for Lithium-Ion Batteries Using Layer-by-Layer Spray Deposition. | LitMetric

AI Article Synopsis

  • - Si-based materials are being explored as an alternative to graphite for Li-ion battery anodes, but their use is limited due to poor performance from significant volume changes during use!* - Si/SiO nanocomposites show improved capacity retention over pure Si because the amorphous SiO helps manage these volume fluctuations!* - A new electrode design using a layer-by-layer atomization technique, incorporating carbon interlayers, enhances electrical contact and reduces damage to the Si/SiO anodes, leading to better capacity, rate capability, and stability than traditional mixtures.

Article Abstract

Si-based high-capacity materials have gained much attention as an alternative to graphite in Li-ion battery anodes. Although Si additions to graphite anodes are now commercialized, the fraction of Si that can be usefully exploited is restricted due to its poor cyclability arising from the large volume changes during charge/discharge. Si/SiO nanocomposites have also shown promising behavior, such as better capacity retention than Si alone because the amorphous SiO helps to accommodate the volume changes of the Si. Here, we demonstrate a new electrode architecture for further advancing the performance of Si/SiO nanocomposite anodes using a scalable layer-by-layer atomization spray deposition technique. We show that particulate C interlayers between the current collector and the Si/SiO layer and between the separator and the Si/SiO layer improved electrical contact and reduced irreversible pulverization of the Si/SiO significantly. Overall, the multiscale approach based on microstructuring at the electrode level combined with nanoengineering at the material level improved the capacity, rate capability, and cycling stability compared to that of an anode comprising a random mixture of the same materials.

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Source
http://dx.doi.org/10.1021/acsami.8b00370DOI Listing

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