Payload Manufacturing
Ecoatoms is pioneering intelligent payloads to automate advanced space manufacturing processes. By leveraging microgravity, we enable hundreds of simultaneous operations, scaling in-space production to unprecedented levels.
A compact, 3 lb, 1x2U autonomous research payload designed for vehicle-independent experimentation in microgravity. M.A.R.S. can operate with or without a live connection to its host vehicle, using a self-triggering IMU and onboard battery to automatically initiate experiments upon detecting microgravity. The modular upper cassette supports plants, chemistry, biology, fluidics, and custom STEM payloads, configurable to mission needs. Purpose-built for rapid integration and maximum flexibility, M.A.R.S. is one of the smallest and most versatile space research platforms available, an Ecoatoms offering for scalable, autonomous science beyond Earth.
A fully integrated DNA processing payload enabling incubation, extraction, amplification, and sequencing preparation in space. HERMES requires single-point sample loading at mission start, operating autonomously without astronaut interaction until final retrieval, dramatically reducing crew time. The 3 x 4 x 5 form factor supports a direct incubation-to-extraction workflow, simplifying operations and improving reliability in microgravity. Purpose-built for orbital use, HERMES delivers end-to-end molecular biology in a compact, automated system, one of a kind on the market.
A lunar-class biological payload designed for Moon-to-Mars experimentation, LETO enables controlled, long-duration life-science research beyond low Earth orbit. The system houses multiple organisms of choice within a tightly regulated environment featuring CO₂ and O₂ management, pressure and temperature control, and live imaging and monitoring throughout the mission. Optimized for biological and astrobiology studies, LETO integrates seamlessly with capsules, space stations, and lunar landers. With compact dimensions 300 mm length (including flanges) x 200 mm width x 200 mm height, LETO delivers deep-space biological capability in an efficient, flight-ready form factor.
With a 3 x 4 x 5 form factor, A.R.E.S. can host up to 432 experiments simultaneously, enabling massive parallelization for reproducible processes, statistically robust results, and accelerated iteration. Designed for high-N experimentation, it supports advanced materials, chemistry, biology, fluidics, and manufacturing workflows, making it ideal for process validation, pilot production, and high-impact publications. A.R.E.S. delivers industrial-scale capability in orbit, turning microgravity into a repeatable, productive manufacturing environment.
book your flight
Payload Manufacturing
Ecoatoms is pioneering intelligent payloads to automate advanced space manufacturing processes. By leveraging microgravity, we enable hundreds of simultaneous operations, scaling in-space production to unprecedented levels.
A compact, 3 lb, 1x2U autonomous research payload designed for vehicle-independent experimentation in microgravity. M.A.R.S. can operate with or without a live connection to its host vehicle, using a self-triggering IMU and onboard battery to automatically initiate experiments upon detecting microgravity. The modular upper cassette supports plants, chemistry, biology, fluidics, and custom STEM payloads, configurable to mission needs. Purpose-built for rapid integration and maximum flexibility, M.A.R.S. is one of the smallest and most versatile space research platforms available, an Ecoatoms offering for scalable, autonomous science beyond Earth.
A fully integrated DNA processing payload enabling incubation, extraction, amplification, and sequencing preparation in space. HERMES requires single-point sample loading at mission start, operating autonomously without astronaut interaction until final retrieval, dramatically reducing crew time. The 3 x 4 x 5 form factor supports a direct incubation-to-extraction workflow, simplifying operations and improving reliability in microgravity. Purpose-built for orbital use, HERMES delivers end-to-end molecular biology in a compact, automated system, one of a kind on the market.
A lunar-class biological payload designed for Moon-to-Mars experimentation, LETO enables controlled, long-duration life-science research beyond low Earth orbit. The system houses multiple organisms of choice within a tightly regulated environment featuring CO₂ and O₂ management, pressure and temperature control, and live imaging and monitoring throughout the mission. Optimized for biological and astrobiology studies, LETO integrates seamlessly with capsules, space stations, and lunar landers. With compact dimensions 300 mm length (including flanges) x 200 mm width x 200 mm height, LETO delivers deep-space biological capability in an efficient, flight-ready form factor.
With a 3 x 4 x 5 form factor, A.R.E.S. can host up to 432 experiments simultaneously, enabling massive parallelization for reproducible processes, statistically robust results, and accelerated iteration. Designed for high-N experimentation, it supports advanced materials, chemistry, biology, fluidics, and manufacturing workflows, making it ideal for process validation, pilot production, and high-impact publications. A.R.E.S. delivers industrial-scale capability in orbit, turning microgravity into a repeatable, productive manufacturing environment.
book your flight