Abstract
Organic-inorganic hybrid metal halide perovskites are poised to revolutionize the next generation of
photovoltaics with their exceptional optoelectronic properties compatibility with low-cost and large-scale
fabrication methods. The leap forward in the power conversion efficiency (PCE) enabled by lead halide
perovskites is unprecedented, with PCEs emerging from 3.8% in its first study to a current certified value of
25.5% in single-junction and 33.7% in perovskite-silicon tandem devices [1-3]. The main challenge for the
successful commercialization of perovskite solar cells is to achieve high stability at the module level. The
commercially available solar modules undergo a series of characterization procedures that analyze their
properties and ensure their quality. However, these procedures and protocols cannot unambiguously be applied
to perovskite solar modules (PSM) due to its unpredictable degradation mechanisms. Therefore more advanced
characterization methods are needed to understand the degradation mechanisms in the PSM. In this context,
optical and electrical measurement methods are effectively employed in quality control and development
support and are essential characterization tools in industry and research.
photovoltaics with their exceptional optoelectronic properties compatibility with low-cost and large-scale
fabrication methods. The leap forward in the power conversion efficiency (PCE) enabled by lead halide
perovskites is unprecedented, with PCEs emerging from 3.8% in its first study to a current certified value of
25.5% in single-junction and 33.7% in perovskite-silicon tandem devices [1-3]. The main challenge for the
successful commercialization of perovskite solar cells is to achieve high stability at the module level. The
commercially available solar modules undergo a series of characterization procedures that analyze their
properties and ensure their quality. However, these procedures and protocols cannot unambiguously be applied
to perovskite solar modules (PSM) due to its unpredictable degradation mechanisms. Therefore more advanced
characterization methods are needed to understand the degradation mechanisms in the PSM. In this context,
optical and electrical measurement methods are effectively employed in quality control and development
support and are essential characterization tools in industry and research.
Translated title of the contribution | Charakterisierung von Perowskit Mini-Modulen |
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Original language | English |
Title of host publication | EU PVSEC 2023 Proceedings |
Number of pages | 5 |
Publication status | Published - Sept 2023 |
Event | 40th EU PVSEC 2023 - Lisbon Congress Center, Lisbon, Portugal Duration: 18 Sept 2023 → 22 Sept 2023 |
Conference
Conference | 40th EU PVSEC 2023 |
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Country/Territory | Portugal |
City | Lisbon |
Period | 18/09/23 → 22/09/23 |
Research Field
- Energy Conversion and Hydrogen Technologies
Web of Science subject categories (JCR Impact Factors)
- Materials Science, Characterization & Testing