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a-SiOx:H/c-Si 구조를 통한 향상된 밴드 오프셋과 터널링에 대한 전기적 특성 고찰

김홍래, 팜뒤퐁, 오동현, 박소민, 라벨로 마테우스, 김영국, 이준신

Electrical Properties for Enhanced Band Offset and Tunneling with a-SiOx:H/a-si Structure

Hongrae Kim, Duy Phong Pham, Donghyun Oh, Somin Park, Matheus Rabelo, Youngkuk Kim, Junsin Yi
J Electr Electron Mater 2021;34(4):251-255.
Published online: July 1, 2021
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a-Si is commonly considered as a primary candidate for the formation of passivation layer in heterojunction (HIT) solar cells. However, there are some problems when using this material such as significant losses due to recombination and parasitic absorption. To reduce these problems, a wide bandgap material is needed. A wide bandgap has a positive influence on effective transmittance, reduction of the parasitic absorption, and prevention of unnecessary epitaxial growth. In this paper, the adoption of a-SiOx:H as the intrinsic layer was discussed. To increase lifetime and conductivity, oxygen concentration control is crucial because it is correlated with the thickness, bonding defect, interface density (Dit), and band offset. A thick oxygenrich layer causes the lifetime and the implied open-circuit voltage to drop. Furthermore the thicker the layer gets, the more free hydrogen atoms are etched in thin films, which worsens the passivation quality and the efficiency of solar cells. Previous studies revealed that the lifetime and the implied voltage decreased when the a-SiOx thickness went beyond around 9 nm. In addition to this, oxygen acted as a defect in the intrinsic layer. The Dit increased up to an oxygen rate on the order of 8%. Beyond 8%, the Dit was constant. By controlling the oxygen concentration properly and achieving a thin layer, high-efficiency HIT solar cells can be fabricated.

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Electrical Properties for Enhanced Band Offset and Tunneling with a-SiOx:H/a-si Structure
J Electr Electron Mater. 2021;34(4):251-255.   Published online July 1, 2021
Download Citation

Download a citation file in RIS format that can be imported by all major citation management software, including EndNote, ProCite, RefWorks, and Reference Manager.

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Electrical Properties for Enhanced Band Offset and Tunneling with a-SiOx:H/a-si Structure
J Electr Electron Mater. 2021;34(4):251-255.   Published online July 1, 2021
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