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A comprehensive physical model for the sensitivity of silicon heterojunction photovoltaic modules to water ingress

Luca Gnocchi, Olatz Arriaga Arruti, Christophe Ballif, Alessandro Virtuani

2023Cell Reports Physical Science14 citationsDOIOpen Access PDF

Abstract

Silicon heterojunction (SHJ)-solar modules—when encapsulated with ethylene vinyl acetate (EVA)—are known to be extremely sensitive to water ingress. The reason for this is, however, not clear. Here, we explain the root causes of this degradation mechanism specific to SHJ, proposing a detailed microscopic model. The role of EVA is instrumental in facilitating a faster water uptake in the module. However, additional observations led us to consider the role of glass in the degradation process. The moisture at the glass/encapsulant interface promotes a glass corrosion process, releasing sodium (Na) ions that, in combination with water, forms molecular Na hydroxide. This can percolate through the EVA, eventually reaching the solar cell. Na ions may act as recombination centers in the passivating layers or at the a-Si/c-Si interface, reducing the cell’s passivation properties. Finally, we propose strategies to reinforce the water resistance and overall reliability of SHJ solar modules.

Topics & Concepts

Photovoltaic systemSensitivity (control systems)HeterojunctionOptoelectronicsMaterials scienceSiliconEnvironmental scienceEngineering physicsEngineeringElectronic engineeringElectrical engineeringPhotovoltaic System Optimization TechniquesSilicon and Solar Cell TechnologiesPhotovoltaic Systems and Sustainability
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