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. 2025 Nov;12(42):e09692.
doi: 10.1002/advs.202509692. Epub 2025 Sep 24.

Hybrid Perovskite-Photovoltaic and Solar-Thermal Harvesting

Gan Huang  1 Parth H Arya  1 David B Ritzer  1   2 Nada A Alati  1 Bahram Abdollahi Nejand  1   2 Ulrich W Paetzold  1   2 Bryce S Richards  1   2
Affiliations

Hybrid Perovskite-Photovoltaic and Solar-Thermal Harvesting

Gan Huang et al. Adv Sci (Weinh). 2025 Nov.

Abstract

Single-junction photovoltaics have inherent limitations as low-energy photons below bandgap cannot generate electrical power, wasting solar energy. Here, a hybrid solar energy harvesting concept is presented. The prototype's core component consists of a semi-transparent perovskite solar module that converts high-energy solar photons into electrical power at 14.3% efficiency, while directing ≈55% of the low-energy photons below bandgap to a solar-thermal collector. The prototype can achieve an overall exergy efficiency of ≈30.0%, with exergy referring to the usefulness of transformed solar energy and its potential to do work. This high efficiency comes from 1) photovoltaic conversion, 2) low-temperature heat generation (60 °C) from photovoltaic thermalization losses, and 3) high-temperature heat generation (900 °C) from the low-energy photons in a modeled large-scale high-concentration-ratio solar concentrator. The exergy efficiency can advance to >40% if using a record-efficiency perovskite photovoltaic. Overall, this study provides a high-efficiency solution for harvesting the full solar spectrum.

Keywords: PV/T; heating; perovskite; photovoltaics; solar.

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References

    1. Renewables 2023: Analysis and forecast to 2028. International Energy Agency https://www.iea.org/reports/renewables‐2023 (Accessed: February 2024).
    1. International Agency of Energy. https://www.iea.org/reports/electricity‐2024 (Accessed: February 2024).
    1. Snapshot of global PV markets 2023. International Energy Agency, 2023. https://iea‐pvps.org/snapshot‐reports/snapshot‐2023/ (Accessed: February 2024).
    1. A. Richter, M. Hermle, S. W. Glunz, IEEE J. Photovoltaics 2013, 3, 1184.
    1. A. Polman, M. Knight, E. C. Garnett, B. Ehrler, W. C. Sinke, Science 2016, 352, 6283.