Optimizing perovskite LEDs and tandem PV cells: The role of photon-recycling and luminescent coupling in presence of strong light scattering

Optimizing perovskite LEDs and tandem PV cells: The role of photon-recycling and luminescent coupling in presence of strong light scattering

Photon recycling (PR) in light-emitting and light-absorbing devices with incoherent scattering is investigated using a novel optical framework, self-consistently coupled to electrical models for current- and voltage-controlled devices to trace the inherent optoelectronic backcoupling associated with...

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Bibliographic Details
Main Authors: Simon J. Zeder, Balthasar Blülle, Beat Ruhstaller, Urs Aeberhard
Format: Article
Language:English
Published: AIP Publishing LLC 2025-06-01
Series:APL Energy
Online Access:http://dx.doi.org/10.1063/5.0268284
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Summary:Photon recycling (PR) in light-emitting and light-absorbing devices with incoherent scattering is investigated using a novel optical framework, self-consistently coupled to electrical models for current- and voltage-controlled devices to trace the inherent optoelectronic backcoupling associated with PR. This study reveals a universal competition between photon re-absorption and scattering processes, which governs performance across device types. In light-emitting diodes, the optimal emitter layer thickness is highly sensitive to scattering outcoupling structures and PR; their consideration in modeling is crucial. In addition, scattering structures impose stricter radiative efficiency requirements for PR to remain beneficial, highlighting the trade-off between loss mitigation and re-absorption penalties. For photovoltaic devices, the impact of front texturing on PR and luminescent coupling (LC) in perovskite–silicon tandem solar cells is quantified, including the first demonstration of luminescent self-coupling at the emissive perovskite-coated texture. While the texture minimally affects PR/LC overall, both scattering and re-absorption redistribute photogeneration. LC enhances tandem efficiency by 4.4%abs in the Auger limit for bottom-limited configurations, illustrating how photon redirection alleviates current-matching constraints.
ISSN:2770-9000

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