| Literature DB >> 31815414 |
Dominic Spencer Jolly1, Ziyang Ning1, James E Darnbrough1,2, Jitti Kasemchainan1,2, Gareth O Hartley1, Paul Adamson1,2, David E J Armstrong1,2, James Marrow1, Peter G Bruce1,3,2,4.
Abstract
Three-electrode studies coupled with tomographic imaging of the Na/Na-β″-alumina interface reveal that voids form in the Na metal at the interface on stripping and they accumulate on cycling, leading to increasing interfacial current density, dendrite formation on plating, short circuit, and cell failure. The process occurs above a critical current for stripping (CCS) for a given stack pressure, which sets the upper limit on current density that avoids cell failure, in line with results for the Li/solid-electrolyte interface. The pressure required to avoid cell failure varies linearly with current density, indicating that Na creep rather than diffusion per se dominates Na transport to the interface and that significant pressures are required to prevent cell death, >9 MPa at 2.5 mA·cm-2.Keywords: X-ray tomography; interface; metal anode; pressure dependence; solid electrolyte; solid-state battery
Year: 2019 PMID: 31815414 DOI: 10.1021/acsami.9b17786
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229