Structural and Electrochemical Evolution of Alloy Interfacial Layers in Anode-Free Solid-State Batteries

13 July 2023, Version 4

Abstract

“Anode-free” solid-state batteries feature high energy density since there is no anode active material upon assembly. While beneficial effects of interfacial layers at the anode-solid electrolyte interface have previously been demonstrated, the mechanisms through which they influence lithium plating/stripping are unclear. Here, we reveal the evolution of 100-nm silver and gold interfacial layers during anode-free lithium plating/stripping using electrochemical methods, electron microscopy, synchrotron micro x-ray computed tomography, and modeling. The alloy layers significantly improve Coulombic efficiency and resistance to short circuiting, even though the alloys form solute regions or particulates that detach from the current collector as lithium grows. In-situ electrochemical impedance spectroscopy shows that the alloy layers return to the interface and mitigate contact loss at the end of stripping, avoiding a critical vulnerability of anode-free cells. The enhanced contact retention is driven by uniform Li thickness that promotes spatially uniform stripping, as well as local alloy delithiation in response to current concentrations to homogenize current and diminish voiding.

Keywords

Batteries
Energy storage
Solid-state batteries
Lithium metal
Anode-free batteries
Interfaces

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