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Synergistically designed antireflective cover for improving wide-angle photovoltaic efficiencies

Jae‐Hyun Kim, Jin-Woo Cho, Injun Jeon, Kyung Taek Jeong, Hyuk-Jun Kang, Dae‐Geun Choi, Jae Hyun Kim, Sun‐Kyung Kim

2022Optics Express10 citationsDOIOpen Access PDF

Abstract

We demonstrated that a well-designed nanopatterned cover improves photovoltaic efficiency across a wide range of incident angles (θ). A nanopatterned cover was created using an integrated ray-wave optics simulation to maximize the light absorption of the surface-textured Si photovoltaic device. A hexagonally arranged nanocone array with a 300 nm pitch was formed into a polymer using nanoimprinting, and the nanostructured polymer was then attached to a glass cover with an index-matching adhesive. Angle-resolved current density-voltage measurements on Si photovoltaic devices showed that the nanopatterned glass cover yielded a 2-13% enhancement in power conversion efficiency at θ = 0-60°, which accounted for its broadband antireflective feature. We performed all-season-perspective simulations based on the results of the integrated ray-wave optics simulations and solar altitude database of South Korea, which validated the sustainability of the developed nanopatterned cover during significant seasonal fluctuations.

Topics & Concepts

Anti-reflective coatingMaterials scienceOpticsPhotovoltaic systemOptoelectronicsPhotovoltaicsCover (algebra)NanotechnologyLayer (electronics)PhysicsBiologyEngineeringMechanical engineeringEcologysolar cell performance optimizationOptical Coatings and GratingsPhotonic and Optical Devices
Synergistically designed antireflective cover for improving wide-angle photovoltaic efficiencies | Litcius