Litcius/Paper detail

Ordered planar plating/stripping enables deep cycling zinc metal batteries

Shuang Chen, Yufan Xia, Ran Zeng, Zhen Luo, Xingxing Wu, Xuzhi Hu, Jian R. Lu, Ehud Gazit, Hongge Pan, Zijian Hong, Mi Yan, Kai Tao, Yinzhu Jiang

2024Science Advances97 citationsDOIOpen Access PDF

Abstract

Metal anodes are emerging as culminating solutions for the development of energy-dense batteries in either aprotic, aqueous, or solid battery configurations. However, unlike traditional intercalation electrodes, the low utilization of “hostless” metal anodes due to the intrinsically disordered plating/stripping impedes their practical applications. Herein, we report ordered planar plating/stripping in a bulk zinc (Zn) anode to achieve an extremely high depth of discharge exceeding 90% with negligible thickness fluctuation and long-term stable cycling. The Zn can be plated/stripped with (0001) Zn preferential orientation throughout the consecutive charge/discharge process, assisted by a self-assembled supramolecular bilayer at the Zn anode-electrolyte interface. Through real-time tracking of the Zn atoms migration, we reveal that the ordered planar plating/stripping is driven by the construction of in-plane Zn─N bindings and the gradient energy landscape at the reaction fronts. The breakthrough results provide alternative insights into the ordered plating/stripping of metal anodes toward rechargeable energy-dense batteries.

Topics & Concepts

Stripping (fiber)AnodeMaterials sciencePlating (geology)ElectrolyteBattery (electricity)MetalElectrodeZincCathodePlanarChemical engineeringBilayerMembraneMetallurgyComposite materialChemistryComputer scienceGeologyEngineeringPhysical chemistryPower (physics)PhysicsBiochemistryComputer graphics (images)Quantum mechanicsGeophysicsAdvanced battery technologies researchAdvanced Battery Materials and TechnologiesSupercapacitor Materials and Fabrication