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Roadmap on materials development and utilization in space

Marcello Lappa, Philip Carvil, Valentina Shevtsova, P. Sánchez, Jose Miguel Ezquerro Navarro, J. Porter, Ana Laverón-Simavilla, D. Langévin, David J. Browne, Tatyana Lyubimova
June 10, 2026
Published Date

Research Abstract & Technology Focus

Abstract Materials science underpins national economies and infrastructures worldwide, contributing significantly to the delivery of key services, as well as underpinning multiple industrial sectors, including space. The space sector, represents a cornerstone of technological progress, driving both direct and indirect innovation across many terrestrial fields. Taken together, materials science and the space sector represent a transformative frontier for innovation that remains only partially exploited, offering opportunities for scientific, economic, and societal advancement. In this context, this roadmap presents a special focus on where such interplay can yield fruitful outcomes over the next two decades, exploring specific intersections between these fields. The rationale behind this is routed in the current demand and forward view for specialised materials to address both terrestrial challenges and extraterrestrial ambitions, with the global space economy projected to reach $1.8 trillion by 2035, requiring a concerted focus on interdisciplinary collaboration. Microgravity provides a unique platform to achieve this, enabling critical insights, more precise control over material formation and the creation of advanced materials with enhanced properties for diverse applications. These breakthroughs are already informing terrestrial applications across industries, from semiconductors to pharmaceuticals, while laying the groundwork for advanced manufacturing in space. Emerging sectors such as the “In-Orbit Economy” and in-situ resource utilisation (ISRU) further underscore this critical opportunity, emphasising the need for resilient materials that can withstand the harsh conditions of space and utilise extraterrestrial resources sustainably. This roadmap brings together a diverse array of contributions covering relevant subjects across these areas—from space exploration and ISRU to the production of new inorganic, organic, and even “living” materials on microgravity platforms—while paying special attention to concrete examples, i.e. cases with a technological readiness level of 4 or higher, which warrant continued attention and effort.
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What is the core focus of the research titled 'Roadmap on materials development and utilization in space'?

This literature focuses on: Abstract Materials science underpins national economies and infrastructures worldwide, contributing significantly to the delivery of key services, as well as underpinning multiple industrial sectors, including space. The space sector, represents a...

Are there commercial applications of 'Roadmap on materials development and utilization in space' in market news publications?

Yes, highly correlated activity was mapped. An entry titled 'Laser-Based 3D Printing Could Build Future Bases on the Moon' discusses this: Simulated lunar dirt can be turned into extremely durable structures, potentially paving the way to more sustainable and cost-effective space missi...

What other academic literature is closely related to 'Roadmap on materials development and utilization in space'?

Yes, highly correlated activity was mapped. An entry titled 'Prototyping of self-sustaining propulsion systems for solar system exploration' discusses this: This work aims at acquiring deeper knowledge about solar system components including valuable materials as well as clearing viable ways towards ext...

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