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Building Organic/Inorganic Hybrid Interphases for Fast Interfacial Transport in Rechargeable Metal Batteries
Authors:Qing Zhao  Zhengyuan Tu  Shuya Wei  Kaihang Zhang  Snehashis Choudhury  Xiaotun Liu  Prof. Lynden A. Archer
Affiliation:1. Robert Frederick Smith School of Chemical and Biomolecular Engineering, Cornell University, Ithaca, NY, USA;2. Department of Materials Science and Engineering, Cornell University, Ithaca, NY, USA
Abstract:We report a facile in situ synthesis that utilizes readily accessible SiCl4 cross‐linking chemistry to create durable hybrid solid–electrolyte interphases (SEIs) on metal anodes. Such hybrid SEIs composed of Si‐interlinked OOCOR molecules that host LiCl salt exhibit fast charge‐transfer kinetics and as much as five‐times higher exchange current densities, in comparison to their spontaneously formed analogues. Electrochemical analysis and direct optical visualization of Li and Na deposition in symmetric Li/Li and Na/Na cells show that the hybrid SEI provides excellent morphological control at high current densities (3–5 mA cm?2) for Li and even for notoriously unstable Na metal anodes. The fast interfacial transport attributes of the SEI are also found to be beneficial for Li‐S cells and stable electrochemical cycling was achieved in galvanostatic studies at rates as high as 2 C. Our work therefore provides a promising approach towards rational design of multifunctional, elastic SEIs that overcome the most serious limitations of spontaneously formed interphases on high‐capacity metal anodes.
Keywords:electrochemistry  interfaces  interfacial transport  lithium–  sulfur batteries  organic–  inorganic hybrid composites
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