Consumers can currently explore Lyten batteries through partnerships with companies like EV startups and electronics manufacturers, with direct sales channels planned via the Lyten website and authorized retailers. Pilot programs are accessible in select regions, such as the U.S. and Europe, with online stores expected to launch soon for components like replacement cells and energy storage units.

Lyten was founded in 2015 by Dan Cook and is headquartered in San Jose, California. The company's mission is to accelerate global decarbonization by developing ultra-efficient batteries that are safer, greener, and more cost-effective than existing solutions. Key innovations include scaling Li-S technology for mass-market use to reduce reliance on fossil fuels and promote renewable energy integration.

Safety is ensured through non-flammable electrolytes and thermal management systems that dissipate heat effectively. The graphene-based structure inhibits dendrite formation, reducing short-circuit risks. Rigorous testing includes impact resistance, overcharging simulations, and extreme temperature trials, meeting international standards like UL and ISO for consumer and automotive applications.

Lyten batteries offer a lifespan of over 1,000 charge cycles while maintaining 80% capacity, making them durable for daily use. Charging times are remarkably fast, taking as little as 10-15 minutes for a full charge in high-power variants, thanks to the efficient graphene structure. This performance is achieved through proprietary fast-charging algorithms that prevent degradation.

As of recent updates, Lyten batteries are available in pilot programs for automotive and industrial partners, with broader commercial rollout expected in the coming years. Current prices range from 0 to 0 per unit depending on capacity, which is competitive due to lower material costs. Retail availability for consumers is projected to increase as production scales, with partnerships like those in the EV sector accelerating adoption.

Lyten batteries have a lower environmental impact through reduced lithium requirements (up to 60% less) and the use of sulfur, a byproduct of oil refining, minimizing mining waste. Manufacturing processes emphasize recyclability, with over 90% of materials recoverable. Lifecycle analyses show a 40% reduction in CO2 emissions compared to conventional batteries, supporting carbon-neutral goals.

Compared to lithium-ion batteries, Lyten batteries provide higher energy density (up to 3x improvement), faster charging times, and enhanced thermal stability, reducing fire risks. However, they may have higher initial costs and are still in development phases for mass production. In terms of sustainability, they use abundant sulfur materials, unlike cobalt in lithium-ion, lowering resource dependency and toxicity.

Lyten batteries are primarily used in electric vehicles (EVs), where their lightweight and high-energy features extend driving ranges. Other key applications include consumer electronics (e.g., smartphones and laptops), aerospace and defense systems, and renewable energy storage solutions. The technology is also being adapted for IoT devices and medical equipment due to its reliability.

Lyten batteries offer significant advantages such as higher energy density (over 500 Wh/kg), faster charging capabilities (as low as 10 minutes for some applications), improved safety due to non-combustible electrolytes, and reduced environmental footprint (e.g., less lithium mining and lower CO2 emissions). They also promise longer lifespan cycles of over 1,000 charges, making them ideal for electric vehicles and portable electronics.

Lyten batteries employ lithium-sulfur (Li-S) chemistry integrated with a proprietary 3D graphene material. This design enhances electron conductivity and sulfur utilization, leading to higher energy density (up to 3 times that of lithium-ion batteries). Key components include nanostructured cathodes and anodes optimized for efficient ion transport, reducing costs and resource consumption.