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Constructing a Topologically Adaptable Solid Electrolyte Interphase for a Highly Reversible Zinc Anode

Tong Yan, Sucheng Liu, Jinye Li, Mengli Tao, Jinhui Liang, Li Du, Zhiming Cui, Huiyu Song

2024ACS Nano75 citationsDOI

Abstract

The performance of aqueous zinc metal batteries is significantly compromised by the stability of the solid electrolyte interphase (SEI), which is intimately linked to the structure of the electrical double layer (EDL) between the zinc anode and electrolyte. Furthermore, understanding the mechanical behavior of SEI is crucial, as it governs its response to stress induced by volume changes, fracture, or deformation. In this study, we introduce l -glutamine (Gln) as an additive to regulate the adsorbed environment of the EDL and in situ produce a hybrid SEI consisting of ZnS and Gln-related species. The results of the nanoindentation test indicate that the hybrid SEI exhibits a low modulus and low hardness, alongside exceptional shape recovery capability, which effectively limits side reactions and enables topological adaptation to volume fluctuations in zinc anodes during zinc ion plating/stripping, thereby enabling Zn//Zn symmetric cells to exhibit an ultralong cycle life of 4000 h in coin cells and a high cumulative capacity of 18,000 mA h in pouch cells. More importantly, the superiority of the formulated strategy is further demonstrated in Zn//NH 4 V 4 O 10 full cells at different N/P ratios of 5.2, 4.9, 3.5, and 2.4. This provides a promising approach for future interfacial modulation in aqueous battery chemistry.

Topics & Concepts

ElectrolyteAnodeZincMaterials scienceInterphaseNanoindentationChemical engineeringAqueous solutionModulusChemistryElectrodeComposite materialMetallurgyOrganic chemistryPhysical chemistryEngineeringBiologyGeneticsAdvanced battery technologies researchPerovskite Materials and ApplicationsAdvanced Battery Materials and Technologies
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