The material that is revolutionising
the solar industry
The future of solar energy
Why choose perovskite
Thanks to its remarkable characteristics, our research revolves around optimising and industrially applying perovskite in photovoltaic cells. And because of its high efficiency, low production costs, and flexibility, perovskite will play a significant role in the future of solar energy.
High sunlight absorption
Perovskite effectively absorbs light in a wide range of wavelengths, including visible and near-infrared light. It can make the most of the available sunlight, even with layers a hundredth of a hair's thickness.
High photoelectric efficiency
This property allows perovskite to reach outstanding high-power conversion efficiency using less material, ensuring performance and cost-efficiency exceeding many conventional photovoltaic solutions. Perovskite solar cells have shown a rapid increase in efficiency, reaching 26% in experimental conditions.
Production ease and cost-effectiveness
Perovskite materials can be easily synthesised with scalable and low-cost production techniques, making them an affordable alternative to existing technologies. This property makes perovskite photovoltaic cells an accessible solution on a global scale.
Flexibility and versatility
Perovskite’s flexibility allows for the construction of thin and foldable photovoltaic cells, which can be seamlessly integrated into the buildings’ architecture. Moreover, perovskite materials can be printed over a large area using inkjet printing techniques or deposited using conventional vacuum-deposition techniques.
The next-gen of solar modules
Perovskite and silicon tandem cells
Our team is constantly committed to exploring new horizons to perfect and optimise the composition and architecture of perovskite and silicon tandem solar cells. We aim to overcome current limits and reach new efficiency peaks.