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The Astromaterials Acquisition and Curation Office (AACO) at NASA Johnson Space Center currently curates 500 milligrams of the regolith sample from the Asteroid Ryugu that was collected by the Japan Aerospace and Exploration Agency’s Hayabusa II spacecraft and returned to Earth in 2021. In September 2023, NASA’s OSIRIS-REx spacecraft returned 70 grams of regolith collected from the surface of Asteroid Bennu. These astromaterial sample collections are stored and handled in gloveboxes and desiccators that are continuously purged with ultrapure nitrogen in order to minimize contamination and alteration of extraterrestrial samples from terrestrial environments. For collaborative astromaterial sample research conducted outside of the AACO, a need emerged for a sample container system suitable for global transport, capable of maintaining the same low-oxygen envi-ronment as laboratory gloveboxes. Thus, the MCS was developed. MSC’s of different sizes (2, 4, and 8-inch sample container models) have been developed to store contact pads and bulk samples from NASA missions, including the OSIRIS-REx Asteroid Bennu mission. MCS’s are designed with seal profiles to prevent oxygen from seeping into the sample container. Additionally, the MCS uses a sample container form-factor that optimizes favorable nitrogen to oxygen gas ratios. The final prototypes were tested and verified using optochemical sensors to measure trace oxygen levels within the sealed containers. The Modular Container System (MCS) could fill a critical gap in the existing high-purity logistics and storage market in its ability to provide a passively maintained, verifiable, multi-year, glovebox-level low-oxygen environment in a portable robust form-factor. Although this technology was originally developed for astromaterial transport and storage, commercial applications may also exist in biopharmaceutical/ bio-banking, microelectronics/ semiconductor, and other industries.