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Laser Processing Optimization for Large-Area Perovskite Solar Modules

Author

Listed:
  • Stefano Razza

    (CHOSE—Centre for Hybrid and Organic Solar Energy, Electronic Engineering Department, University of Rome Tor Vergata, via del Politecnico 1, 00133 Rome, Italy)

  • Sara Pescetelli

    (CHOSE—Centre for Hybrid and Organic Solar Energy, Electronic Engineering Department, University of Rome Tor Vergata, via del Politecnico 1, 00133 Rome, Italy)

  • Antonio Agresti

    (CHOSE—Centre for Hybrid and Organic Solar Energy, Electronic Engineering Department, University of Rome Tor Vergata, via del Politecnico 1, 00133 Rome, Italy)

  • Aldo Di Carlo

    (CHOSE—Centre for Hybrid and Organic Solar Energy, Electronic Engineering Department, University of Rome Tor Vergata, via del Politecnico 1, 00133 Rome, Italy
    LASE—Laboratory of Advanced Solar Energy, National University of Science and Technology “MISiS”, Leninsky Prospect 4, 119049 Moscow, Russia)

Abstract

The industrial exploitation of perovskite solar cell technology is still hampered by the lack of repeatable and high-throughput fabrication processes for large-area modules. The joint efforts of the scientific community allowed to demonstrate high-performing small area solar cells; however, retaining such results over large area modules is not trivial. Indeed, the development of deposition methods over large substrates is required together with additional laser processes for the realization of the monolithically integrated cells and their interconnections. In this work, we develop an efficient perovskite solar module based on 2D material engineered structure by optimizing the laser ablation steps (namely P1, P2, P3) required for shaping the module layout in series connected sub-cells. We investigate the impact of the P2 and P3 laser processes, carried out by employing a UV pulsed laser (pulse width = 10 ns; λ = 355 nm), over the final module performance. In particular, a P2 process for removing 2D material-based cell stack from interconnection area among adjacent cells is optimized. Moreover, the impact of the P3 process used to isolate adjacent sub-cells after gold realization over the module performance once laminated in panel configuration is elucidated. The developed fabrication process ensures high-performance repeatability over a large module number by demonstrating the use of laser processing in industrial production.

Suggested Citation

  • Stefano Razza & Sara Pescetelli & Antonio Agresti & Aldo Di Carlo, 2021. "Laser Processing Optimization for Large-Area Perovskite Solar Modules," Energies, MDPI, vol. 14(4), pages 1-15, February.
    • Handle: RePEc:gam:jeners:v:14:y:2021:i:4:p:1069-:d:501432
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    Citations

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    Cited by:

    1. Sara Pescetelli & Antonio Agresti & George Viskadouros & Stefano Razza & Konstantinos Rogdakis & Ioannis Kalogerakis & Emmanuel Spiliarotis & Enrico Leonardi & Paolo Mariani & Luca Sorbello & Marco Pi, 2022. "Integration of two-dimensional materials-based perovskite solar panels into a stand-alone solar farm," Nature Energy, Nature, vol. 7(7), pages 597-607, July.

    More about this item

    Keywords

    perovskite solar cells and modules; P1; P2; P3 laser scribe; scaling-up; monolithic interconnections; 2D materials;
    All these keywords.

    JEL classification:

    • P1 - Political Economy and Comparative Economic Systems - - Capitalist Economies
    • P2 - Political Economy and Comparative Economic Systems - - Socialist and Transition Economies
    • P3 - Political Economy and Comparative Economic Systems - - Socialist Institutions and Their Transitions

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