E-magy is the European pioneering manufacturer of high-energy density lithium ion batteries that use a unique nanoporous silicon anode technology to deliver groundbreaking performance for drones and unmanned systems. Based in the Netherlands and boasting a 40+-strong team of experts in materials science, electrochemistry and engineering, our goal is to empower the world not only with advanced robotics but also with clean and electrically-powered mobility.
Our silicon technology is in production at our in-house facility and is ready to be scaled up to 50 tons by the end of the decade (500 MWh battery storage capacity).
Silicon anode technology for lightweight high-capacity drone batteries
As the drone industry continues to grow, the demand for greater range, longer flight times and higher performance is on the rise, with a particular need for clean and sustainable electrification solutions. Typical Li-ion batteries, which use graphite as an active anode material, cannot keep up with this demand.
Our silicon-dominant anodes offer up to ten times the capacity and faster charging times, while reducing overall weight and production costs. We have solved the swelling and breaking issues inherent in the charging of silicon through a unique manufacturing process that utilises a nanoporous structure with high mechanical stability.
The advantages of our silicon anode material include:
- Higher energy density – our revolutionary technology enables the creation of Li-ion batteries that deliver 40% higher energy density (in Wh/kg) with faster charging
- Negligible anode expansion – tests have shown a negligible pouch cell thickness variation of <5% after 100 cycles, with an 85% weight silicon anode
- Environmentally-friendly – we use cheap metallurgical-grade silicon that is abundantly available and EU-sourced, and a highly efficient casting process with negligible scrappage and a low carbon footprint
- Low-cost – our production costs per kWh are on par with graphite, thanks to raw material availability and our efficient crystallisation process
Our drone battery offerings
We are developing a 10 Ah pouch cell specifically designed for drone applications that is highly suited to the needs of multirotor drones as well as hybrid VTOL fixed-wing platforms.
The lightweight and compact battery solution has consistently achieved over 30 minutes of flight time for up to 186 flight cycles under our robust test protocols. Thickness measurements show that cell swelling is contained to within 3.5%, when the battery is cycled for 280 hours at a C/2 rate.
The first iteration of our drone pouch cell is already in production, and we expect an improved cell design to be ready in H1 2026.
Key specifications include:
| Current iteration | H1 2026 drone cell | |
| Length x Width | 14 x 9 cm | 14 x 9 cm |
| Thickness | 8 mm | 8 mm |
| Weight | 145g | 230g |
| Nominal Capacity | 10 Ah | 22 Ah |
| Gravimetric ED | 270 Wh/kg | 350 Wh/kg |
| Volumetric ED | 787 Wh/l | 870 Wh/l |
| Max Discharge Current | 30A (3C) continuous 50A (5C) 30 sec pulse |
66A (3C) continuous 132A (6C) 30 sec pulse |
| Cycle Life (+C/2-3C, 100% DOD, 80% SOH) |
150 – 200 | 175 – 225 |
| Nominal Voltage | 3.5V | 3.5V |
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