Developer of electric propulsion systems for satellites; announced a $15M funding to supercharge electric propulsion for satellites.
Investment Rounds
Capital activity and funding progression
| Amount | Date | Round |
|---|---|---|
| €15 M | Feb, 2026 | unspecified |
Industries
Frequently Asked Questions
Where is Morpheus Space located?
Morpheus Space is located in Dresden, Germany.
What industries does Morpheus Space operate in?
Morpheus Space operates in the following industries: aerospace, space-technology, hardware.
How much total funding has Morpheus Space raised?
Morpheus Space has raised a total of $15,000,000.
Who are the investors in Morpheus Space?
The investors in Morpheus Space are: Pallas.
What products does Morpheus Space offer for satellite mobility?
Morpheus Space provides advanced electric propulsion systems such as the GO-2 and NanoFEEP thrusters along with the JOURNEY mission planning software to enable agile satellite operations.
How does the propulsion technology from Morpheus Space work?
The company utilizes Field Emission Electric Propulsion technology which accelerates ions from a molten metal alloy using an electric field to provide highly efficient and precise thrust.
What is the benefit of the modular design used by Morpheus Space?
The modular architecture allows the propulsion systems to be easily scaled and integrated into various satellite sizes from small CubeSats to larger spacecraft weighing up to 250 kilograms.
How does Morpheus Space support space sustainability?
By providing reliable mobility their thrusters allow satellites to perform collision avoidance maneuvers and execute controlled de-orbiting at the end of their mission to reduce orbital debris.
What is the unique propellant used in Morpheus Space thrusters?
The thrusters use a solid metallic propellant that is non-toxic and non-corrosive ensuring zero leakage and enhancing system durability because it requires no pressurized tanks or moving parts.
What are the primary applications for Morpheus Space propulsion systems?
Key applications include constellation management precision orbit control attitude control and the last-mile delivery of satellites to their final operational orbits.