Samsung Electro-Mechanics has developed an ultra-compact all-solid-state battery tailored for wearable devices.
The innovative battery is an oxide-based small all-solid-state battery with an industry-leading energy density of 200 Wh/L.
This has achieved an equivalent level of energy density to lithium-ion batteries while being smaller in size, and Samsung Electro-Mechanics is currently promoting this product to customers through prototype evaluations.
All-solid-state batteries utilize a non-flammable solid electrolyte for charging and discharging, enhancing safety and resilience to external shocks, and allowing for various shapes, even at ultra-compact sizes.
In contrast, traditional lithium-ion batteries, which are created by rolling thin plates, can encounter wrinkling at the folds in ultra-compact designs. Additionally, they require additional space to accommodate internal volume expansion during charging, which limits miniaturization.
Samsung Electro-Mechanics has overcome the limitations of miniaturization with its oxide-based all-solid-state battery.
Similar to the MLCC process, by printing thin layers of electrode and solid electrolyte materials, stacking them alternately, and cutting them, the manufacturing process prevents wrinkling. In addition, the volume change during charging is minimal, eliminating the need for extra space, and there is no requirement for the separator typically needed in lithium-ion batteries, successfully enabling ultra-compact design.
Samsung Electro-Mechanics has leveraged its expertise from MLCC manufacturing in developing the oxide-based small all-solid-state battery.
Numerous patents related to oxide-based all-solid-state batteries have been secured by Samsung Electro-Mechanics in preparation for commercialization, with over 40 patents filed internationally in the past three years.
By capitalizing on the battery's high stability, miniaturization, and design versatility, Samsung Electro-Mechanics is prioritizing its application in wearable devices and is currently conducting tests with customers.