Download This PaperRational Design of 3d Porous Channel Buffer Artificial Interphase Layer for Uniform Nucleation in Magnesium Metal Anodes
32 Pages Posted: 6 Oct 2022
Abstract
Rechargeable magnesium (Mg) metal batteries (RMBs) have received extensive attention due to their high theoretical capacity and superior safety. However, the heterogeneous deposition behavior and detrimental corrosion issues of Mg metal anode hinder the commercial application of RMBs. Herein, we have developed a facile and effective approach to realizing uniform Mg metal anode deposition with artificial solid-electrolyte interphase (SEI) layers by in-situ dynamic self-assembly coordination of phytic acid (PA) with Mg2+. Especially, the 3D porous channel structure of interfacial PA skeleton could regulate ion flux via coordination, efficiently homogenizing the distribution of Mg2+ and successfully triggers dendrite-free Mg deposition by experimental results and theoretical calculation. Encouragingly, the symmetric cells using as-prepared Mg metal anode possess low voltage hysteresis (250 mV) and long cycle life (780 cycles) under harsh test condition (3 mA cm-2, 1 mAh cm-2). The effectiveness of 3D porous channel buffer artificial SEI is further demonstrated in the Mg-Mo6S8 full cells. Such an advanced strategy for modulating Mg2+ transport provides an avenue to addressing the basic challenges for RMBs, which can potentially be extended to other construction of highly tolerant and conductive artificial SEI layers.
Keywords: Mg metal anode,artificial SEI layers, 3D porous channel buffer, dendrite-free Mg, high-performance Mg batteries.
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