Reducing Thermal Degradation of Perovskite Solar Cells During Vacuum Lamination by Internal Diffusion Barriers

Robert Witteck, Duong Nguyen Minh, Goutam Paul, Steven Harvey, Xiaopeng Zheng, Qi Jiang, Min Chen, Tobias Abzieher, Axel Palmstrom, Brian Habersberger, E. Ashley Gaulding, Joseph Luther, Lance Wheeler

Research output: Contribution to journalArticlepeer-review

Abstract

Current photovoltaic (PV) panels typically contain interconnected solar cells that are vacuum laminated with a polymer encapsulant between two pieces of glass or glass with a polymer backsheet. This packaging approach is ubiquitous in conventional photovoltaic technologies such as silicon and thin-film solar modules, contributing to thermal management, mechanical reinforcement, and environmental protection to enable the long lifetimes necessary to become financially acceptable. Commercial vacuum lamination processes typically occur at 150 degrees C to ensure cross-linking and/or glass bonding of the encapsulant to the glass and PV cells. Perovskite solar cells (PSCs) have emerged as a promising next-generation PV technology that is known to degrade under thermal stresses, especially at temperatures above 100 degrees C. In this study, we determine degradation modes during lamination and engineer internal diffusion barriers within the PSC to withstand the harsh thermal conditions of vacuum lamination. PSCs with self-assembled monolayers at the ITO interface and SnOX layers deposited by atomic layer deposition at the electron extraction side of the device endured vacuum lamination at conditions typical of commercial PV processes (150 degrees C) without degradation. This work demonstrates that perovskite PV can be integrated into the existing module lamination process, enabling future single- and multijunction modules utilizing perovskite absorbers.
Original languageAmerican English
JournalACS Applied Energy Materials
DOIs
StatePublished - 2024

NREL Publication Number

  • NREL/JA-5900-90567

Keywords

  • encapsulation
  • perovskite photovoltaics
  • perovskite reliability
  • thermal degradation
  • vacuum lamination

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