Chae-Woong Kim scite author profile

The influence of Na on Cu(In,Ga)Se2 (CIGS) solar cells was investigated. A gradient profile of the Na in the CIGS absorber layer can induce an electric field modulation and significantly strengthen the back surface field effect. This field modulation originates from a grain growth model introduced by a combination of alloy-hardening and pair-annihilation probabilities, wherein the Cu supply and Na diffusion together screen the driving force of the grain boundary motion (GBM) by alloy hardening, which indicates a specific GBM pinning by Cu and Na. The pair annihilation between the ubiquitously evolving GBMs has a coincident probability with the alloy-hardening event.PACS: 88. 40. H-, 81. 10. Aj, 81. 40. Cd,

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Characterization of Flexible CIGS Thin Film Solar Cells on Stainless Steel with Intrinsic ZnO Diffusion Barriers

Kim¹,

Kim²,

Kim³

et al. 2016

j nanosci nanotechnol

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ZnO diffusion barrier layer was deposited by RF magnetron sputtering by using the same method as intrinsic ZnO layer. The CIGS solar cells were fabricated on stainless steel substrate. The 50-200 nm thin ZnO diffusion barriers effectively reduced the diffusion of Fe and Cr, from stainless steel substrates into the CIGS absorbers. The CIGS solar cells with ZnO diffusion barriers increased the J(sc) and FF, which resulted in an increase of cell efficiency from 5.9% up to 9.06%.

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Effect of Reaction Temperature of CdS Buffer Layers by Chemical Bath Deposition Method

Kim¹,

Kim²,

Jung³

et al. 2016

j nanosci nanotechnol

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This study investigated CdS deposition on a Cu(In,Ga)Se2 (CIGS) film via chemical bath deposition (CBD) in order to obtain a high-quality optimized buffer layer. The thickness and reaction temperature (from 50 degrees C to 65 degrees C) were investigated, and we found that an increase in the reaction temperature during CBD, resulted in a thicker CdS layer. We obtained a thin film with a thickness of 50 nm at a reaction temperature of 60 degrees C, which also exhibited the highest photoelectric conversion efficiency for use in solar cells. Room temperature time-resolved photoluminescence (TR-PL) measurements were performed on the Cu(In,Ga)Se2 (CIGS) thin film and CdS/CIGS samples to determine the recombination process of the photo-generated minority carrier. The device performance was found to be dependent on the thickness of the CdS layer. As the thickness of the CdS increases, the fill factor and the series resistance increased to 61.66% and decreased to 8.35 Ω, respectively. The best condition was observed at a reaction temperature of 60 degrees C, and its conversion efficiency was 12.20%.

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Rapid Crystallization of CuInSe₂ Thin Films by Electron-Beam Irradiation

Kim¹,

Jee²,

Lee³

et al. 2018

sci adv mater

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Chae-Woong Kim

Spectral Response of CuGaSe2/Cu(In,Ga)Se2 Monolithic Tandem Solar Cell With Open-Circuit Voltage Over 1 V

Field modulation in Na-incorporated Cu(In,Ga)Se2 (CIGS) polycrystalline films influenced by alloy-hardening and pair-annihilation probabilities

Characterization of Flexible CIGS Thin Film Solar Cells on Stainless Steel with Intrinsic ZnO Diffusion Barriers

Effect of Reaction Temperature of CdS Buffer Layers by Chemical Bath Deposition Method

Rapid Crystallization of CuInSe₂ Thin Films by Electron-Beam Irradiation

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Chae-Woong Kim

Spectral Response of CuGaSe2/Cu(In,Ga)Se2 Monolithic Tandem Solar Cell With Open-Circuit Voltage Over 1 V

Field modulation in Na-incorporated Cu(In,Ga)Se2 (CIGS) polycrystalline films influenced by alloy-hardening and pair-annihilation probabilities

Characterization of Flexible CIGS Thin Film Solar Cells on Stainless Steel with Intrinsic ZnO Diffusion Barriers

Effect of Reaction Temperature of CdS Buffer Layers by Chemical Bath Deposition Method

Rapid Crystallization of CuInSe2 Thin Films by Electron-Beam Irradiation

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Rapid Crystallization of CuInSe₂ Thin Films by Electron-Beam Irradiation