Frequently Ask Questions

Space-based activity refers to any research, manufacturing, or technological development conducted in the unique environment of space. This includes activities on the International Space Station (ISS), in Low Earth Orbit (LEO), or aboard other space platforms. These activities take advantage of conditions such as microgravity, vacuum, and radiation to achieve results that aren't possible on Earth.


Space offers unique conditions that can enhance research, development, and manufacturing across various industries. For example, microgravity allows for purer crystal
growth in biotechnology, more efficient drug formulation in pharmaceuticals, and the production of advanced materials with superior properties. Each industry can
leverage space-based activities to innovate, improve product quality, and gain a competitive edge. Contact us for a personalized free consultation.


No, space research is increasingly accessible to a wide range of companies, including small and medium-sized enterprises (SMEs). With the advent of private space stations,
re-entry platforms, and free-flyer missions, the cost of accessing space is decreasing, making it feasible for businesses of all sizes to explore space-based opportunities.


Microgravity is the condition in which objects appear to be weightless and experience very weak gravitational forces. In space, this environment allows for unique scientific
experiments and manufacturing processes, such as growing purer crystals, observing fluid dynamics without convection, and creating novel materials. These results can
lead to breakthroughs that are not achievable on Earth.


A wide range of industries can benefit from space-based activities, including:
Aerospace: Testing and development of new materials and technologies.
Biotechnology: Advancements in drug discovery, stem cell research, and protein crystal growth.
Pharmaceuticals: Accelerated drug development and testing.
Agriculture: Improved crop growth and soil management techniques.
Advanced Materials: Development of new composites and high-performance materials.
Semiconductors: Enhanced production and characterization of semiconductor wafers.
Environmental Science: Earth observation for climate monitoring.
Medical Devices: Testing and development of new medical technologies.
Just to mention a few, if you are interested in more details about this, please contact us for a free consultation. 


The cost of space-based research varies depending on the type of activity, the platform used (e.g., ISS, private space station, free flyer, parabolic flight, etc. ), and the
duration of the experiment. Historically, costs have been high, but they are decreasing with advances in space technology and the entry of private companies into the
market. Future costs are expected to be significantly lower, making space more accessible.


Starting a space-based project involves identifying how space conditions can benefit your specific industry and finding the right partners or platforms to carry out the
research. SCM specializes in guiding companies through this process, from concept development to execution. We can help you assess the potential benefits, connect with
the right space platforms, and navigate the logistics of space research.


There are numerous successful space-based projects across various industries. For instance, pharmaceutical companies have conducted drug formulation experiments in
microgravity that have led to more effective treatments. Agriculture companies have studied plant growth in space to develop crops that are more resilient to harsh
conditions on Earth. Advanced materials companies have developed new alloys and composites with superior properties through space-based manufacturing.


SCM acts as a gatekeeper and guide for companies looking to explore the possibilities of space. We provide expertise in both terrestrial and space industries, helping
companies understand how space-based activities can benefit them from a technological to a financial point of view. SCM offers end-to-end support, from identifying
opportunities and conducting feasibility studies to executing projects and analyzing results.


While science and technology are significant focus areas, space research also encompasses a broader range of activities, including commercial, agricultural, environmental,
and educational projects. Space offers unique opportunities for marketing and branding, educational outreach, and even hospitality, as seen in projects like Hilton’s space
hotel concept.


The future of space-based activities includes the development of private space stations, more affordable access to space, and the expansion of space tourism. These
advancements will open up new opportunities for industries to conduct research, manufacture products, and even market their brands in space. The third industrial
revolution, driven by space-based technologies, is on the horizon, and industries that engage with space now will be well-positioned to lead in the future.