E-magy company profile
E-magy develops nanoporous silicon anode material for lithium-ion batteries. Its specialty silicon is designed to increase battery energy density while controlling swelling, giving cell manufacturers a scalable material route for higher-performance EV, aviation and electrified-equipment batteries.
Facts
- Segment: Power Systems
- Country: Netherlands
- Founded: 2013
- Website: https://e-magy.com
Profile sections
- Summary
- Market context
- Facts
- Context / Market Position
- Events
- Sources
Summary
E-magy develops nanoporous silicon anode material for lithium-ion batteries. Its specialty silicon is designed to increase battery energy density while controlling swelling, giving cell manufacturers a scalable material route for higher-performance EV, aviation and electrified-equipment batteries.
Market context
Silicon-anode battery materials for UAV endurance; power-systems component layer for drone battery packs. Battery materials for drone power systems; silicon-anode technology for improving UAV energy density and endurance.
Facts
- Website: https://e-magy.com
- HQ: Broek op Langedijk, Netherlands
- Founded: 2013
- Segment: Power Systems
Silicon-anode materials for higher-energy robot batteries
E-magy develops nanoporous silicon-dominant anode materials for lithium-ion batteries. Its official materials emphasize higher energy density, compatibility with existing battery production, industrial-scale production near Amsterdam and applicability to high-performance sectors including drones.
- Target environment: Battery cell development, UAV battery packs, EV battery programs, consumer electronics, high-energy lithium-ion cells and power-system supply chains.
- Deployment model: Upstream materials-supplier model selling silicon anode material into battery manufacturers and cell-development partners rather than finished robotic platforms.
- Customer context: Battery manufacturers, pack developers, UAV power-system teams, EV programs and hardware companies seeking higher energy density from lithium-ion chemistry.
- Workflow context: Anode-material qualification, pouch-cell testing, high-energy battery development, endurance improvement, supplier qualification and production scale-up.
- Commercial maturity: Advanced-materials supplier with official technical and production claims. Robotics relevance is indirect but meaningful for drones and mobile robots where battery mass and endurance constrain deplo…
- Market position: Power-system component supplier in the battery-materials layer for UAV and mobile-robot endurance.
- Adoption constraints: Adoption depends on cell validation, cycle life, swelling behavior, manufacturability, cost, battery partner uptake, scale-up and safety qualification.
- Adjacent context: Silicon anodes, lithium-ion battery materials, UAV endurance, battery supply chains, power systems, EV batteries and mobile robot energy density.
- Source confidence: high
Events
- 2026-03-30 - Capability - E-magy outlines silicon-dominant drone-cell test results - The webinar covered nanoporous silicon anode material for drone and unmanned aerial system battery development.
E-magy canonical Korthos profile