All verified mentions of this organization in source documents.
Space LiinTech, a Korea-based company, awarded a contract to Voyager Technologies to manifest a new payload to the International Space Station for microgravity-enabled drug discovery.
Voyager Technologies offers one-stop mission management and access-to-orbit services to help customers move from concept to spaceflight with speed, reliability, and scale.
Space LiinTech plans to expand continuous space-based medicine research with Voyager Technologies over time.
Voyager Technologies will provide mission integration, payload configuration support, and end-to-end guidance to ensure safe operations aboard the International Space Station for the Space LiinTech payload.
Matt Magaña is president for Space, Defense & National Security at Voyager Technologies.
Phase 1 incumbents Blue Origin/Sierra, Axiom, and Voyager/Airbus face competition from new entrants and must demonstrate technical maturity, financial viability, schedule realism, and the ability to attract non-NASA customers.
Phase 1 of Commercial LEO Destinations funded three partnerships through Space Act Agreements: Blue Origin/Sierra Space for Orbital Reef, Axiom Space for a modular station approach, and Voyager Space partnered with Airbus for Starlab.
Voyager plans to host its manufacturing hardware on its commercial space station, Starlab.
Voyager will send samples to the International Space Station in spring 2026 to validate the patented method with the support of a grant from the ISS National Laboratory.
The patented process by Voyager focuses on creating crystals that are essential for optical communications and modern computing infrastructure.
Higher crystal quality from Voyager's patented approach improves signal stability and reduces error rates in high-bandwidth systems supporting AI and cloud computing.
Voyager Technologies secured a patent for an extraterrestrial manufacturing method that produces larger, purer crystals for optical communications.
Voyager plans to send its patented manufacturing process to the International Space Station (ISS) in spring 2023 to demonstrate the hardware.
Voyager Technologies secured a patent from the US government for its unique process of manufacturing crystals in microgravity for optical communications use cases.
Voyager's method enables the growth of crystals that precisely match specific optical wavelengths, eliminating interference and spectral artifacts.
Patent partners for Voyager’s method include experts from the New Jersey Institute of Technology, New York University, and the Universities Space Research Association.
Voyager aims to establish a high-volume manufacturing process for its crystals.
Voyager's demonstration aims to return an experimentally useful quantity of crystals from the ISS.
Voyager Technologies completed four strategic acquisitions in 2025: LEOcloud, Electromagnetic Systems, ExoTerra Resource, and Estes Energetics.
Each acquisition by Voyager Technologies addressed a specific capability gap.