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Effective Photon Management of Non-Surface-Textured Flexible Thin Crystalline Silicon Solar Cells

Inchan Hwang, Youngsoon Jeong, Yuta Shiratori, Jeonghwan Park, Shinsuke Miyajima, Ilsun Yoon, Kwanyong Seo

2020Cell Reports Physical Science48 citationsDOIOpen Access PDF

Abstract

Thin crystalline silicon (c-Si) showing outstanding flexibility has been considered as an active material for flexible solar cells. However, an effective photon management should be developed for thin c-Si, which shows severe light absorption loss. Here, we introduce random inverted-pyramidal polydimethylsiloxane (RIP-PDMS) films on the surface of the thin c-Si solar cell to simultaneously secure high absorption and flexibility. Attaching the RIP-PDMS film on the front surface of the device can significantly reduce surface reflection; near-infrared light recycling can be further improved by attaching a metal-coated RIP-PDMS film on the rear surface of the device. Notably, thin c-Si solar cells with RIP-PDMS films have an efficiency of 18.4% and exhibit a constant efficiency during 1,000 repeated bending tests with a bending radius of 10 mm. Also, finite-difference time-domain simulations confirm that the RIP-PDMS films increase the light diffusion and optical path length inside the c-Si.

Topics & Concepts

Materials sciencePolydimethylsiloxaneThin filmSolar cellSiliconOptoelectronicsAbsorption (acoustics)BendingPlasmonic solar cellOpticsCrystalline siliconComposite materialPolymer solar cellNanotechnologyPhysicsSilicon and Solar Cell TechnologiesThin-Film Transistor TechnologiesNanowire Synthesis and Applications
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