Exceptional battery
performance for
critical missions.
Our national security and military demands reliable, high-capacity battery technology to ensure critical applications can operate efficiently and maintain a tactical advantage. Titan Silicon™ is a U.S.-based, market-proven battery technology that delivers more energy density, without compromising battery cycle life or safety.
The Titan Silicon advantage: High performance with flexibility.
Explore the benefits of enhancing your battery-powered applications with Titan Silicon, which enables 20% energy density gains with rapid charging capabilities.
Intelligence, Surveillance and Reconnaissance (ISR) systems face intense energy demands to support advanced sensors and real-time data processing for long-duration missions. Titan Silicon delivers high-density, lightweight energy to extend runtime and enable advanced capabilities in a variety of device form factors.
Achieve higher battery capacity with the same pack size and weight to support long missions.
Double your power performance for high-load processing or functionality.
Up to 20% smaller battery for reduced signature of remote sensors and communications.
Soldier Systems and Command, Control, Communications and Computers (C4) require batteries that can support a wide range of high-tech equipment and maintain operational readiness. Titan Silicon enables lightweight batteries with more power for wearable and handheld electronics plus faster charging to decrease downtime.
Achieve higher battery capacity with the same pack size and weight for reliable continuous use.
Enable 2x faster charging for greater equipment readiness and efficiency.
Up to 15% lighter battery for more compact gear and handheld equipment.
Hybrid propulsion systems used in automotive, marine, and industrial vehicles, as well as UAVs, require lightweight batteries that maximize energy to support passenger capacity, as well as long runtimes. High energy Titan Silicon enables longer electric assist, faster charging, and reduced battery size.
Gain up to 20% more range in the same size pack.
Enable 2x faster charging to minimize downtime.
High performance across a range of temperatures.
Military robots such as autonomous surveillance bots and robotic pack mules demand batteries that can power enduring performance across long distances and carry heavy payloads. Titan Silicon delivers high energy without additional weight to extend operational runtime, increase efficiency, and enable faster charging.
Achieve higher battery capacity with the same pack size and weight for extended use.
2x faster charging speeds for higher work to charge ratio.
More tasks performed per pack, up to 3x the missions.
Military unmanned systems such as UAVs, UGVs, UUVs and USVs require batteries that balance energy, weight, and power. Batteries powered with Titan Silicon are lighter weight for optimal vehicle efficiency and offer greater energy density for longer range or flight time.
Increase the distance covered with higher battery capacity in the same pack size.
Reduce battery weight by up to 15% for the same battery capacity to support heavier payloads.
Get up to 3x the missions per pack with a longer cycle life.
Download a summary of how Sila and Titan Silicon can strengthen U.S. National Security and Defense with the highest performing battery technology.
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Solutions to meet your
mission-specific requirements.
Use with any cell and cell integrator
Titan Silicon works with any lithium-ion cell format and size, and can be used by any integrator you choose.
Flexibility to fit your platform requirements
Choose full or partial graphite replacement solutions based on your application needs and performance targets and timelines.
Battery expertise backing your success
Our Battery Engineering Services team can collaborate with your integrator to achieve your targeted KPIs, or work directly with you to develop and deliver highly-specialized cells in low volumes.
U.S. production to
ensure supply
reliability and security.
Titan Silicon is manufactured domestically to automotive-quality standards, eliminating the need for foreign-supplied graphite and enabling a secure U.S.-based battery supply chain powered by superior anode material.