Your search keyword '"Byoung-Jin Oh"' showing total 3 results

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

Author

Jae-Hwan Park, Hao Chu, Jong-Youb Lim, Byoung-Jin Oh, Byeong-Guk Kim, Dong-Gun Lim, Young-Soo An, Bo-Yun Jang, and Jin Seok Lee

Subjects

Materials science, Silicon, business.industry, Doping, chemistry.chemical_element, Nanotechnology, Quantum dot solar cell, Polymer solar cell, law.invention, Monocrystalline silicon, chemistry, law, Solar cell, Optoelectronics, Wafer, Crystalline silicon, business

Abstract

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 (), and diffusion time (5~30 min) in atmosphere. With optimum condition, we were able to achieve cell efficiency of 14.1%.

Published

2011

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

Author

Dong-Gun Lim, Jae-Hwan Park, Byoung-Jin Oh, Hao Chu, Jin Seok Lee, Young-Soo An, Bo-Yun Jang, Byeong-Guk Kim, and Yong-Koo Lee

Subjects

Nanostructure, Materials science, Silicon, business.industry, chemistry.chemical_element, Mixed solution, engineering.material, Optics, chemistry, Coating, Electrical resistivity and conductivity, Ribbon, engineering, Optoelectronics, Wafer, business, Reflectance properties

Abstract

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.

Published

2011

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

Author

Jeong-Yeon Kim, Soon-Yong Kweon, Jae-Hwan Park, Duck-Hyun Woo, Byoung-Jin Oh, Dong-Gun Lim, and Byeong-Guk Kim

Subjects

Materials science, business.industry, Oxide, Nanotechnology, Substrate (electronics), Sputter deposition, Surface energy, Contact angle, chemistry.chemical_compound, chemistry, Sputtering, Optoelectronics, General Materials Science, Polyethylene naphthalate, business, Layer (electronics)

Abstract

Transparent conducting oxide (TCO) films are widely used for optoelectronic applications. Among TCO materials,zinc oxide (ZnO) has been studied extensively for its high optical transmission and electrical conduction. In this study, the effectsof O2 plasma pretreatment on the properties of Ga-doped ZnO films (GZO) on polyethylene naphthalate (PEN) substrate werestudied. The O2 plasma pretreatment process was used instead of conventional oxide buffer layers. The O2 plasma treatmentprocess has several merits compared with the oxide buffer layer treatment, especially on a mass production scale. In this process,an additional sputtering system for oxide composition is not needed and the plasma treatment process is easily adopted as anin-line process. GZO films were fabricated by RF magnetron sputtering process. To improve surface energy and adhesionbetween the PEN substrate and the GZO film, the O2 plasma pre-treatment process was used prior to GZO sputtering. As theRF power and the treatment time increased, the contact angle decreased and the RMS surface roughness increased significantly.It is believed that the surface energy and adhesive force of the polymer surfaces increased with the O2 plasma treatment andthat the crystallinity and grain size of the GZO films increased. When the RF power was 100W and the treatment time was120 sec in the O2 plasma pretreatment process, the resistivity of the GZO films on the PEN substrate was 1.05×10-3Ω-cm,which is an appropriate range for most optoelectronic applications.

Published

2010