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KCI등재후보 학술저널

수용성 희생층을 활용한 태양전지용 다결정 실리콘 멤브레인 제조

Polycrystalline Silicon Membranes for Solar Cells Fabricated Using Water-soluble Sacrificial Layers

DOI : 10.31613/ceramist.2022.25.1.05
  • 21

During the fabrication of crystalline silicon solar cells, kerf-loss caused by the wire-sawing of silicon ingots to produce thin wafers inevitably limits the reduction of electricity production cost. To avoid the kerf- loss, direct growth of crystalline silicon wafers of 50-150 μm with a porous separation layer that can be mechanically broken during the exfoliation process, has been widely investigated. However, several issues including flattening of the surface after the exfoliation remain unsolved. In this work an alternative method that utilizes a water-soluble Sr3Al2O6 (SAO) sacrificial layer inserted between the mother substrate and the grown crystalline silicon layers is introduced. Polycrystalline silicon layers were grown on SAO/Si by plasma- enhanced CVD process and silicon membranes could be successfully obtained after the dissolution of SAO in the water. Same process could be applied to obtain flexible amorphous silicon membranes. Further research is being conducted to increase the size of the exfoliated wafer, which expects to reduce the production cost of crystalline silicon solar cells effectively.

1. 서론

2. 수용성 Sr₃Al₂O₆ 희생층 박막 제조

3. 수용성 Sr₃Al₂O₆ 박막의 용해를 통한 실리콘 멤브레인 제작

References

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