At PeroTech we are pioneering next generation perovskite materials for smarter, cleaner and more efficient world of the future.
Perovskites for Space
Powering the Final Frontier with Radiation-Hardened Perovskite Solar Tech
Perovskite's ability to maintain high performance even after exposure to intense cosmic and proton radiation makes them ideal for satellites, rovers, and deep-space probes.
Perovskites have been demonstrated that they can be produced using low-cost, low-temperature processes, these materials could one day be printed or repaired directly in orbit or on planetary surfaces.
Silicon
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Rapid degradation under cosmic and proton radiation.
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Heavy and rigid, adds significant launch mass.
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Brittle and prone to cracking during deployment.
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Fixed bandgap limits energy capture.
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Requires rigid structures and heavy support.
Perovskites
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Demonstrates strong radiation tolerance with minimal performance loss.
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Ultra-light and flexible, reduces payload weight dramatically.
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Can be bent, rolled, or printed on thin films—ideal for satellites and rovers.
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Low-temperature, scalable, and potentially printable fabrication.
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Low-cost materials and simpler processing methods.
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Tunable bandgaps for optimized, multi-junction performance.
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Maintains stability under extreme radiation and temperature cycling.
The Challenge
PeroTech Radiation-Hardened Perovskites
Perovskites maintain over 90% of original efficiency where silicon fails. Engineered for the cosmic environment.
Up to 10 times lighter than traditional silicon arrays — reducing payload mass and launch cost while enabling ultra-portable energy systems.
These solar films can bend, fold, and adapt to any structure — perfect for satellites, lunar habitats, or deep-space probes.
Customizable bandgaps unlock superior power density and multi-junction performance, turning every photon into more usable energy.
Built using low-temperature, low-cost deposition, our technology scales easily — from lab to launchpad, from Earth to orbit.
Space Applications
“From LEO to Mars — Perovskites Are Ready
Use Cases
🛰️ Satellites & CubeSats
Perovskite solar films deliver high power per gram, extending mission lifetimes and enabling smaller satellites to do more with less.
🚀 Deep Space Probes
Beyond Earth’s protection, radiation is relentless. Radiation-hardened perovskites retain efficiency far from the Sun, ensuring consistent power even after years of exposure.
🌕 Lunar Bases & Surface Power
Designed to survive extreme temperature swings and dust storms, perovskite panels can power surface habitats, rovers, and infrastructure on the Moon’s harsh terrain.
• 🛠️ In-Situ Manufacturing (on-demand solar printing)
With lightweight, foldable designs, perovskite arrays can deploy easily on Martian missions, offering reliable energy for exploration and future colonization efforts.
Future Vision
Towards a Solar Revolution — On Earth and Beyond
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Space-hardened perovskites have the potential to become tomorrow’s power source for everything from drones to cities, from orbit to Earth.
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Perovskites can be applied in lighter than air applications, and stronger and more robust solution than Silicon
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Perovskites perform where others fail, they thrive in extreme heat, radiation, and dust — ideal for desert megafarms and off-grid environments.
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Eco-friendly materials and low-energy manufacturing for a cleaner, faster solar future.
Let’s Build the Future of Space Power Together
The Era of Silicon Is Ending. The Perovskite Age Has Begun.
Space demands more than what old materials can offer.
PeroTech radiation-hardened perovskites are reshaping what’s possible — delivering lightweight, flexible, and resilient solar power built for the most extreme environments.
From satellites to Mars missions to sustainable energy on Earth, this is more than innovation — it’s a revolution.