Capability
Precision Instrumentation
Autonomous hardware and sensing architectures designed for synthesis, materials processing, and high-fidelity in-situ diagnostics under strict flight constraints.
Autonomous hardware and sensing architectures designed for synthesis, materials processing, and high-fidelity in-situ diagnostics under strict flight constraints.
Custom experiment architectures and process routes optimised for crystal growth, chemical synthesis, extreme thermal control, and precise sample handling.
Physics-based digital modelling workflows that map operating windows, de-risk physical payload design, and tightly couple ground-based baseline tests with in-orbit execution.
Strategic partnership with corporate R&D teams to translate product and technical challenges into microgravity process routes for advanced materials innovation constrained by terrestrial processing.
We help teams identify high-value use cases and build innovation pipelines where microgravity can create product development advantages and materials innovation opportunities.
Translation of high-level product and materials challenges into feasible, end-to-end experiment campaigns spanning early feasibility, ground validation, flight planning, and post-flight analysis.
Comprehensive engineering support for physical payload concepts, modular instrumentation, interface matching, and space platform integration.
Expertise across advanced materials, process engineering, and space systems.
Building microgravity capabilities for novel chemistries, advanced semiconductors, and quantum materials.
