Precision In Perovskite: The Role of Spectroscopy in Next Gen Photovoltaics

Posted on: August 28th, 2025

Perovskite solar cells (PSCs) are redefining what’s possible in the renewable energy landscape. With power conversion efficiencies now rivaling silicon and tandem devices pushing record highs, perovskites represent the future of high-performance photovoltaics. Yet, challenges such as material instability, reproducibility, and scalability remain key barriers to commercialization.

This white paper reveals how spectroscopy in photovoltaics delivers the precision needed to unlock perovskite’s full potential. By offering non-destructive, real-time insight into thin-film formation, carrier dynamics, and material stability, spectroscopy empowers researchers and manufacturers to optimize efficiency, ensure quality, and extend device lifetimes.

Inside, you’ll discover:

• UV-VIS absorption spectroscopy for monitoring perovskite thin-film deposition and crystallization
• Photoluminescence (PL) and quantum yield (QY) measurements for detecting non-radiative losses and assessing material quality
• Thin-film metrology and in-situ monitoring for improved reproducibility and scalability
• Case studies from leading solar energy research labs using Avantes spectrometers to advance perovskite innovation

By bridging lab-scale research and scalable production, spectroscopy is accelerating the path toward reliable, cost-effective next-generation solar cells.

Download the White Paper