Sadoway Labs Technology
Whole Earth Battery
The Challenge
Balancing performance with environmental extremes
Li-ion batteries experience reduced performance in extreme temperatures, resulting in lower efficiency and the need for additional thermal management systems. These systems increase overall costs and decrease effective battery capacity, limiting the scalability of Li-ion technology for reliable energy storage across diverse environmental conditions.
Space Overview
Powering today, evolving for tomorrow
Li-ion batteries dominate the energy storage market due to their high energy density, lightweight design, and rechargeable nature. Despite their widespread use in consumer electronics, electric vehicles, and renewable energy storage, challenges remain with performance in extreme temperatures. Ongoing advancements aim to enhance efficiency, reduce costs, and improve sustainability in the energy storage space.
Need for Innovation
Batteries built for all conditions
There is a growing demand for batteries that can operate efficiently across a wider range of temperatures, eliminating the need for costly thermal management systems. These advanced batteries will not only reduce system costs, such as in electric vehicles, but also extend battery life by being less sensitive to extreme operating conditions. This innovation is key to creating more affordable, durable, and versatile energy storage solutions.
The SLF Solution
Redefining energy storage for extreme environments
The SLF battery is designed to operate efficiently across a broad temperature range from -100°C to +70°C, making it adaptable to the entire Earth's climate — a whole earth battery.
Utilizing materials with high melting points and a specialized electrolyte that remains liquid and non-flammable, this technology eliminates the need for thermal management systems and enhances safety and performance in harsh conditions, offering a breakthrough in energy storage solutions.
Interested in learning more about our technologies? Contact us at info@sadowaylabs.org