A Disruptive Battery Technology
More power and energy density, non-flammable and non-toxic
SeaWave Battery™ is developing a disruptive new battery technology that will use saline-based electrolyte and ceramic-metal-glass alloy electrodes. It is expected to provide twice the power and capacity of lithium-ion battery packs, at a significantly lower cost of manufacturing.
SeaWave Battery™ intends to support the full range of energy storage and power conditioning applications for electric vehicles, utility grids and renewable energy. SeaWave Battery plans to manufacture batteries ranging from 2.5 kilowatt hours to multi-megawatt hours of electricity. Most competing batteries only support narrow ranges of applications. SeaWave Battery anticipates offering the following over a wide range of applications:
Early PrototypeWe are on our 18th prototype iteration and can demonstrate a cell with the capacity of 1.81 VOC .
We have more than 650 working cells that prove our theoretical calculations.
Our uniquely developed electrolyte, coupled with a custom layering of the anode and cathode achieves superior consistent energy readings. Current results from our prototype cells suggest:
More power and energy density, non-flammable and non-toxic
SeaWave Battery™ is developing a disruptive new battery technology that will use saline-based electrolyte and ceramic-metal-glass alloy electrodes. It is expected to provide twice the power and capacity of lithium-ion battery packs, at a significantly lower cost of manufacturing.
SeaWave Battery™ intends to support the full range of energy storage and power conditioning applications for electric vehicles, utility grids and renewable energy. SeaWave Battery plans to manufacture batteries ranging from 2.5 kilowatt hours to multi-megawatt hours of electricity. Most competing batteries only support narrow ranges of applications. SeaWave Battery anticipates offering the following over a wide range of applications:
- Modular, mobile, lightweight storage
- Very high power density for rapid acceleration or grid load conditioning
- High energy density for long range and 24/7 energy supply
- Deep discharges without compromising battery capacity
- Rapid recharge and discharge (estimated at 5,000+ cycles)
- Safe, non-toxic, readily accessible, and affordable materials
Early PrototypeWe are on our 18th prototype iteration and can demonstrate a cell with the capacity of 1.81 VOC .
We have more than 650 working cells that prove our theoretical calculations.
Our uniquely developed electrolyte, coupled with a custom layering of the anode and cathode achieves superior consistent energy readings. Current results from our prototype cells suggest:
- Power density of 650 watts/kg
- 70% - 98% of theoretical capacity achieved
- Long cycle life - 5,000+ cycles