PeroNova

Filling the gaps that silicon solar can't

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Efficiency

Perovskite cells work with almost all visible wavelengths and can be fine-tuned to absorb different colors in the solar spectrum. We achieved 26% efficiency in the PeroNova lab, inching toward crystalline silicon's theoretical energy efficiency limit.

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Thickness

Ultra-thin perovskite films measure around 0.5 microns thick, compared to silicon at 200 microns. Portability and ease of installation open up perovskite films to undiscovered opportunities in solar renewables.

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Sustainability

A cleaner solar material — 40% lower carbon footprint than silicon, with no high-heat processing.

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Availability

Perovskite materials are not costly or supply-limited like silicon, reducing unexpected market cost fluctuations and availability concerns.

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Dynamic Nature

Can be paired with materials like silicon to form hybrid structures that can achieve energy efficiencies beyond the theoretical limit of silicon.

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Cost Reductions

Cost-effective manufacturing and reduced supply chain complications make perovskite 30-50% less expensive than traditional PV technology.

Our improvements

While perovskite materials have the potential to shape the future of solar energy generation, one concern has kept it from reaching wide-scale adoption — stability.

At PeroNova, we have focused our research on improving the stability, reliability, and performance of perovskite solar cells, achieving significant breakthroughs that position perovskite photovoltaics for commercialization.

10%

More electricity generated than traditional solar thin films

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Efficiency after 10,000 hours max power point tracking

Less tensile film stress after our patented treatment

About Technology

Achieving world-record-level efficiency in PeroNova Lab

10%

4T-Tandem

10.1%

AM1.5G Outdoor

10%

AM0 Space

From small cells to 900cm² modules

10%

4T-Tandem

10%

AM1.5G Outdoor

10%

AM0 Space

10%

more electricity generated per watt in low-light conditions than silicon

Perovskite:

Reducing the carbon footprint of solar energy

40% lower carbon footprint compared to traditional solar materials

Our perovskite technology offers a significantly more sustainable alternative to traditional silicon panels. Unlike silicon, which requires high-heat manufacturing, our process uses 90% less energy, greatly reducing the carbon footprint. By choosing perovskite, we’re not just advancing solar technology; we’re also helping to build a cleaner, more sustainable future.