Samsung solid-state battery wearables are officially in the pipeline, with the Galaxy Ring slated to be the first device to feature this advanced technology. According to a report from South Korea, the rollout of solid-state batteries will begin in Q4 2025 and eventually extend to Galaxy earbuds and smartwatches in the coming years.
This move represents a major leap in battery technology for Samsung’s wearable ecosystem and promises improvements in energy density, safety, and design innovation.
🔋 Why Solid-State Batteries?
Unlike traditional lithium-ion batteries, which use liquid electrolytes, solid-state batteries rely on solid electrolytes, making them:
- ✅ Safer — with lower risk of overheating or fire
- 🔋 More energy dense — allowing for longer battery life in smaller spaces
- 🎨 Flexible in shape — enabling more creative and compact device designs
Given Samsung’s history with battery-related controversies, the adoption of this safer alternative reflects its commitment to minimizing fire hazards and improving user safety.
📆 What Devices Will Use Solid-State Batteries and When?
According to the report:
- Galaxy Ring 2 or 3 – First wearable to feature a solid-state battery, expected Q4 2025
- Galaxy Buds (Next Gen) – Scheduled to adopt the battery tech in Q4 2026
- Galaxy Watch Series – Will follow with solid-state batteries by Q4 2027
Samsung Electro-Mechanics is currently leading the development efforts, though there is no update yet on plans for solid-state battery integration in smartphones.
💸 Higher Cost, Higher Value?
While the benefits of solid-state batteries are clear, there’s a catch: higher production costs.
The Galaxy Ring was already a premium device, and the introduction of solid-state batteries may push the price even higher. However, many consumers may be willing to pay more for safer, longer-lasting, and better-designed wearables.
📝 Final Thoughts
Samsung’s adoption of solid-state batteries signals the beginning of a new era in wearable technology. With the Galaxy Ring leading the charge, users can expect more durable, efficient, and compact devices over the next few years.
If successful, this move could accelerate the mainstream shift toward solid-state power — not just for wearables, but eventually for smartphones and beyond.
