As the solar industry accelerates toward next-generation materials, perovskite photovoltaics have emerged as a game-changing technology. With record-breaking efficiencies and the potential for low-cost, scalable production, perovskites promise to reshape the future of solar energy. But they also come with challenges.
Material instability, inconsistent film formation, and limited scalability make it difficult to bring lab-scale breakthroughs into commercial reality. This is where spectroscopy plays a critical role.
In this white paper, we explore how advanced spectroscopic techniques, such as UV-VIS-NIR, photoluminescence (PL), quantum yield (QY), and in-situ thin-film monitoring, are enabling real-time insights into perovskite behavior during fabrication and stress testing.
Inside you’ll find:
- The core challenges holding back perovskite PV scalability
- How spectroscopy helps tackle variability, degradation, and non-radiative losses
- Use cases from research
- Practical examples of how our spectrometers are already used in perovskite research and production
Download the white paper to discover how spectroscopy is bridging the gap between innovation and industrialization in perovskite photovoltaics.
Application Note Perovskite Photovoltaics
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