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Transparent Thin-Film Silicon Solar Cells for Indoor Light Harvesting with Conversion Efficiencies of 36% without Photodegradation

Gayoung Kim, Jung Wook Lim, Jieun Kim, Sun Jin Yun, Min A. Park

2020ACS Applied Materials & Interfaces77 citationsDOI

Abstract

With the development of the Internet of Things (IoT), indoor photovoltaics are attracting considerable interest owing to their potential to benefit various IoT-related fields. Therefore, this study investigates the use of transparent hydrogenated amorphous silicon (a-Si:H) solar cells for a broad range of applications, including indoor light harvesting. High-gap triple layers were employed in the a-Si:H solar cells to obtain a high shunt resistance and high short-circuit current, JSC, and open-circuit voltage, VOC, under indoor illumination. Additionally, multiple color-adjusting layers were added without noticeable costs to the conversion efficiency. The maximum efficiency of 36.0% was obtained at a transmittance of 20.44% under white LED light (3000 lx and 0.92 mW cm–2). Furthermore, the fabricated transparent solar cells show excellent long-term performance, sustaining over 99% of original efficiency under continuous indoor light illumination for 200 h. These cells could accelerate the progress of energy harvesting in IoT applications and facilitate the construction of integrated photovoltaics.

Topics & Concepts

Materials sciencePhotodegradationSiliconOptoelectronicsThin filmSolar cellPhotovoltaicsPhotovoltaic systemNanotechnologyCatalysisPhotocatalysisOrganic chemistryElectrical engineeringEngineeringChemistrysolar cell performance optimizationThin-Film Transistor TechnologiesNanowire Synthesis and Applications
Transparent Thin-Film Silicon Solar Cells for Indoor Light Harvesting with Conversion Efficiencies of 36% without Photodegradation | Litcius