Using a scanning transmission electron microscopy to take an atomic-level look at a cubic garnet material called LLZO the researchers found the material to be stable in a range of aqueous environments, making the compound a promising component in new battery configurations.

Researchers frequently seek to improve a battery’s energy density by using a pure lithium anode, which offers the highest known theoretical capacity, and an aqueous electrolyte that can speedily transport lithium. The ORNL scientists believe the LLZO would be an ideal separator material, which is crucial.

“Many novel batteries adopt these two features [lithium anode and aqueous electrolyte], but if you integrate both into a single battery, a problem arises because the water is very reactive when in direct contact with lithium metal,” said ORNL postdoctoral associate Cheng Ma, first author on the team’s study published in Angewandte Chemie. “The reaction is very violent, which is why you need a protective layer around the lithium.”

Battery designers can use a solid electrolyte separator to shield the lithium, but their options are limited. Even the primary separator of choice, known as LAPT or LISICON, tends to break down under normal battery operating conditions.

“Researchers have searched for a suitable solid electrolyte separator material for years,” explained ORNL’s Miaofang Chi, the study’s lead author. “The requirements for this type of material are very strict. It must be compatible with the lithium anode because lithium is reactive, and it also has to be stable over a wide pH range, because you can have an alkaline environment - especially with lithium air batteries.”

The researchers used atomic resolution imaging to monitor structural changes in LLZO after the samples’ immersion in a range of aqueous solutions. The team’s observations showed that the compound remained structurally stable over time across neutral and extremely alkaline environments.

“This solid electrolyte separator remains stable even for a pH value higher than 14,” Ma said. “It gives battery