Byoung-Jin Oh scite author profile

Byoung-Jin Oh

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Co-firing Optimization of Crystalline Silicon Solar Cell Using Rapid Thermal Process

Oh¹,

Yeo²,

Lim

2012

Journal of the Korean Institute of Electrical and Electronic Ma

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Limiting thermal exposure time using rapid thermal processing(RTP) has emerged as promising simplified process for manufacturing of solar cell in a continuous way. This paper reports the simplification of co-firing using RTP. Actual temperature profile for co-firing after screen printing is a key issue for high-quality metal-semiconductor contact. The plateau time during the firing process were varied at 450℃ for 10∼16 sec. Glass frit in Ag paste etch anti-reflection layer with plateau time. Glass frit in Ag paste is important for the Ag/Si contact formation and performances of crystalline Si solar cell. We achieved 17.14% efficiency with optimum conditions.

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Properties of ZnO:Ga Transparent Conducting Film Fabricated on O2 Plasma-Treated Polyethylene Naphthalate Substrate

Kim¹,

Kim²,

Oh³

et al. 2010

Korean. J. Mater. Res.

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Improving Efficiency of Low Cost EFG Ribbon Silicon Solar Cells by Using a SOD Method

Kim¹,

Lim²,

Chu³

et al. 2011

Journal of the Korean Institute of Electrical and Electronic Ma

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The high cost of crystalline silicon solar cells has been considered as one of the major obstacles to their terrestrial applications. Spin on doping (SOD) is presented as a useful process for the manufacturing of low cost solar cells. Phosphorus (P509) was used as an n-type emitters of solar cells. N-type emitters were formed on p-type EFG ribbon Si wafers by using a SOD at different spin speed (1,000∼4,000 rpm), diffusion temperatures (800℃∼950℃), and diffusion time (5∼30 min) in N2+O2 atmosphere. With optimum condition, we were able to achieve cell efficiency of 14.1%.

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Optimizing Surface Reflectance Properties of Low Cost Multicrystalline EFG Ribbon-silicon

Kim¹,

Lee²,

Chu³

et al. 2011

Journal of the Korean Institute of Electrical and Electronic Ma

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Ribbon silicon solar cells have been investigated because they can be produced with a lower material cost. However, it is very difficult to get good texturing with a conventional acid solution. To achieve high efficiency should be minimized for the reflectance properties. In this paper, acid vapor texturing and anti-reflection coating of SiNx was applied for EFG Ribbon Si Wafer. P-type ribbon silicon wafer had a thickness of 200 μm and a resistivity of 3 Ω-㎝. Ribbon silicon wafers were exposed in an acid vapor. Acid vapor texturing was made by reaction between the silicon and the mixed solution of HF : HNO3.. After acid vapor texturing process, nanostructure of less than size of 1 μm was formed and surface reflectance of 6.44% was achieved. Reflectance was decreased to 2.37% with anti-reflection coating of SiNx.

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Bowing of 100[μm] Level Thickness of n-Type Silicon Wafer for Commercialization in PV Cell and Module Process

Woon¹,

Oh²,

Chang³

et al. 2014

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Byoung-Jin Oh

Co-firing Optimization of Crystalline Silicon Solar Cell Using Rapid Thermal Process

Properties of ZnO:Ga Transparent Conducting Film Fabricated on O2 Plasma-Treated Polyethylene Naphthalate Substrate

Improving Efficiency of Low Cost EFG Ribbon Silicon Solar Cells by Using a SOD Method

Optimizing Surface Reflectance Properties of Low Cost Multicrystalline EFG Ribbon-silicon

Bowing of 100[μm] Level Thickness of n-Type Silicon Wafer for Commercialization in PV Cell and Module Process

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