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Random subwavelength structures on glass to improve photovoltaic module performance

Cristina Leyre Pinto, Iñaki Cornago, Alicia Buceta, Eugenia Zugasti, Jaione Bengoechea

2022Solar Energy Materials and Solar Cells13 citationsDOIOpen Access PDF

Abstract

Glass samples have been processed by a single-step self-masking RIE (Reactive Ion Etching) process to obtain random subwavelength structures (SWSs), which mimic anti-reflective and anti-soiling patterns present in nature. The SWSs fabricated on glass provide an excellent broadband omnidirectional anti-reflective (AR) property (¡1% absolute reflectance) in the spectral region (300–1200) nm due to the graded refractive index that these SWS produce in the air–glass interface, reducing the reflectance. Moreover, these SWSs increase the roughness of the glass surface enhancing its wettability and anti-soiling properties. In order to quantify the performance improvement of photovoltaic devices when using these structured glasses as front cover, commercial PERC (Passivated Emitter and Rear Contact) solar cells have been laminated with these structured glasses using the standard configuration (glass/EVA/Solar Cell/EVA/backsheet) and their electrical parameters such as I–V curve, spectral response, and IAM (Incidence Angle Modifier) factor have characterized.

Topics & Concepts

Materials scienceOpticsRefractive indexSolar cellBorosilicate glassProfilometerReactive-ion etchingCommon emitterOptoelectronicsSurface roughnessEtching (microfabrication)Photovoltaic systemSurface finishComposite materialLayer (electronics)PhysicsBiologyEcologyOptical Coatings and GratingsThin-Film Transistor Technologiessolar cell performance optimization
Random subwavelength structures on glass to improve photovoltaic module performance | Litcius