Unlocking 3x operational lifetime for perovskite solar cells through proprietary stabilization chemistry.
For decades, silicon has been the bedrock of solar. But we've reached the theoretical limit. Current silicon technology is capped in efficiency, structurally rigid, and prohibitively heavy for emerging high-growth markets. To reach net-zero, we must break the ceiling.
Silicon cells are nearing the Shockley-Queisser limit of ~29%. Future gains are incremental and expensive.
Heavy weight & rigid structure prevent integration into curved surfaces, or surfaces where mass is crucial factor.
Silicon manufacturing is energy-intensive. Perovskite offers a 10x lower carbon footprint during production.
Perovskites are the most promising materials for the next generation of photovoltaics. They offer the potential to leapfrog traditional silicon performance and enable entirely new energy use cases.
Perovskites possess high absorption coefficients and tunable bandgaps, making them ideal for tandem architectures that can surpass 35% efficiency.
Thin-film deposition allows for lightweight, flexible modules. This unlocks new markets in aerospace, BIPV, and portable energy solutions.
The final frontier.
Long-term environmental stability remains the primary challenge for commercialization. This is exactly where Luxyon's chemistry provides the solution.
78% of all new global renewable energy installations are now solar. The demand for higher energy yield per m² has never been more urgent.
Perovskite was plagued by degradation. Luxyon's chemistry increases operational life by 300%, turning a lab curiosity into an industrial reality.
From augmenting existing infrastructure to powering the next generation of solar applications.
By layering perovskite over silicon, tandem cells unlock over 50% higher energy efficiency, turning the same surface area into more powerful source of energy.
Luxyon's flexible cells open the door to a future where solar can be seamlessly integrated into vehicles, buildings, aerospace systems, and countless new surfaces.
The missing piece in the perovskite puzzle.
We don't just chase efficiency records. Our focus is longevity. Our proprietary encapsulation and chemical additives solve the moisture and heat degradation issues inherent in current perovskite designs.
Our solution is designed for compatibility. Luxyon cells integrate into existing perovskite/tandem manufacturing lines without making any changes, allowing for rapid licensing and scale-up.
Luxyon is a spin-off from the Ruđer Bošković Institute, combining advanced perovskite research with a strong focus on commercialization.
Accelerating the transition to stable, high-efficiency photovoltaics across diverse industries.
Perovskite & Tandem cell production lines.
BIPV, VIPV, and Lightweight flexible solutions.
Exploring next-gen energy integration.
Technical partners and innovation hubs.
Successful long-term stress tests under intense UV and thermal cycles, proving our molecular foundation.
Initial lab-scale validation confirmed the effectiveness of Luxyon's stabilization approach and its potential for further optimization.
Securing global intellectual property rights for our proprietary chemical interface and manufacturing protocols.
Scaling pilot production and formalizing licensing protocols for global industrial partners.
Having successfully validated our stabilization chemistry in controlled laboratory environments, we are now scaling for global industrial integration.
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