Abstract
Sulfide electrolytes including the argyrodite family (Li6PS5X, X = Cl, Br, I) exhibit high ionic conductivities and transference
numbers and are regarded as promising electrolytes for all-solid-state lithium batteries. Although high ionic conductivity is a
necessary requirement for feasible battery operation, other parameters are equally important and have often been neglected in
efforts to realize all-solid-state batteries. The so-called critical current density (CCD) is among the more relevant parameters for
application and indicates the maximum current an electrolyte can sustain before breakdown. When Li metal electrodes are used,
this breakdown is often initiated by heavy dendrite formation and subsequent growth through the electrolyte layer, resulting in
internal shorting of the cell. Very promising CCD values are reported for the argyrodite family of >1 mA cm−2 at elevated
temperatures and pressures. However, non-standardized cell setups and testing procedures are employed, which renders a proper
comparison of values impossible. Thus, this work investigates the impact of these often-overlooked parameters and aims at
establishing more standard measurement procedures for solid electrolytes under ambient or almost ambient pressure. Furthermore,
an alternative method for evaluation of CCD values is presented adopted from Tafel analysis.
numbers and are regarded as promising electrolytes for all-solid-state lithium batteries. Although high ionic conductivity is a
necessary requirement for feasible battery operation, other parameters are equally important and have often been neglected in
efforts to realize all-solid-state batteries. The so-called critical current density (CCD) is among the more relevant parameters for
application and indicates the maximum current an electrolyte can sustain before breakdown. When Li metal electrodes are used,
this breakdown is often initiated by heavy dendrite formation and subsequent growth through the electrolyte layer, resulting in
internal shorting of the cell. Very promising CCD values are reported for the argyrodite family of >1 mA cm−2 at elevated
temperatures and pressures. However, non-standardized cell setups and testing procedures are employed, which renders a proper
comparison of values impossible. Thus, this work investigates the impact of these often-overlooked parameters and aims at
establishing more standard measurement procedures for solid electrolytes under ambient or almost ambient pressure. Furthermore,
an alternative method for evaluation of CCD values is presented adopted from Tafel analysis.
| Original language | English |
|---|---|
| Pages (from-to) | 100525 |
| Journal | Journal of the Electrochemical Society |
| Volume | 170 |
| Publication status | Published - 2023 |
Research Field
- Solid State Battery