We're transforming global energy consumption with highly innovative and sustainable methods leveraging perovskite materials
Performance and stability remain key challenges of perovskite's commercialization. PeroNova’s team and research have enhanced the stability and reliability of perovskite, improved its commercial viability, and is posed to make meaningful change where silicon can’t.
Enhanced stability of perovskite films
Improved reliability during production
Raised efficiency in the lab
higher PV performance than control material
tensile film stress reduction after treatment
PeroNova has licensed over 10 patents from National Renewable Energy Laboratory (NREL), advancing our mission of making perovskite commercially viable.
Efficient and stable p-i-n structured perovskite solar cells
Organo-Metal Halide Perovskites and Methods of Making the Same
Multi-Layered Perovskites, Devices and Methods of Making the Same
Compositions of chiral molecules and perovskite nanocrystals and methods of making the same
Methods for Producing Perovskite Halide Films
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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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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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A cleaner solar material — 40% lower carbon footprint than silicon, with no high-heat processing.
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Perovskite materials are not costly or supply-limited like silicon, reducing unexpected market cost fluctuations and availability concerns.
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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-effective manufacturing and reduced supply chain complications make perovskite 30-50% less expensive than traditional PV technology.