One thing we’ve always said we’d commit to at LiNa Energy is backing up our technology with data.
As we move from concept to commercial reality, validating performance at cell level is a critical step. So it’s great to be able to share that we’ve validated a new battery concept based on a thin metal-supported ceramic electrolyte layer.
Our CTO, Dr. Sergii Pylypko, has been leading the charge on this alongside the wider technical team. This work validates LiNa Energy’s new battery concept based on a thin metal-supported ceramic electrolyte layer, outperforming existing solutions for long-duration energy storage in terms of efficiency, durability, and cost.
Several batches of cells manufactured on a newly installed automated pilot line have now been electrochemically tested, confirming the main KPIs as proof of concept for the technology, ahead of full system validation in real operating conditions.
So now for the proof points.
With an average RTE of 96.5% and degradation below 0.0017% per cycle, LiNa systems offer a real operational advantage: over 25 years of daily cycling without battery replacement, across all climate conditions.
Combined with full 100% capacity access, 100% coulombic efficiency, and an inherently safe chemistry that removes fire risks even during overcharge or overdischarge, our battery technology offers a great and cost-efficient alternative to existing lithium-ion solutions for large-scale BESS projects.
See image of the cycling data
This marks another concrete step toward storage systems designed for the realities of the grid – durable, safe, and built for decades of daily operation.
One thing we’ve always said we’d commit to at LiNa Energy is backing up our technology with data.
As we move from concept to commercial reality, validating performance at cell level is a critical step. So it’s great to be able to share that we’ve validated a new battery concept based on a thin metal-supported ceramic electrolyte layer.
Our CTO, Dr. Sergii Pylypko, has been leading the charge on this alongside the wider technical team. This work validates LiNa Energy’s new battery concept based on a thin metal-supported ceramic electrolyte layer, outperforming existing solutions for long-duration energy storage in terms of efficiency, durability, and cost.
Several batches of cells manufactured on a newly installed automated pilot line have now been electrochemically tested, confirming the main KPIs as proof of concept for the technology, ahead of full system validation in real operating conditions.
So now for the proof points.
With an average RTE of 96.5% and degradation below 0.0017% per cycle, LiNa systems offer a real operational advantage: over 25 years of daily cycling without battery replacement, across all climate conditions.
Combined with full 100% capacity access, 100% coulombic efficiency, and an inherently safe chemistry that removes fire risks even during overcharge or overdischarge, our battery technology offers a great and cost-efficient alternative to existing lithium-ion solutions for large-scale BESS projects.
See image of the cycling data
This marks another concrete step toward storage systems designed for the realities of the grid – durable, safe, and built for decades of daily operation.
Thanks Team – this is a fantastic achievement!