Title of article
Mono- and tri-crystalline Si for PV application
Author/Authors
Endrِs، نويسنده , , A.L، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2002
Pages
16
From page
109
To page
124
Abstract
Crystalline silicon wafers are by far the dominant absorber materials for todayʹs production of solar cells and modules due to their good price/performance relation and their proven environmental stability. These wafers are mainly produced either by a solar-optimized Czochralski (Cz)-growth method yielding crystalline silicon with low defect density (c-Si) or by a directional solidification or a ribbon growth method yielding large grained multi-crystalline (mc-Si) wafers with higher defect density. To further improve the price/performance relation of Cz solar cells, tri-crystalline silicon (tri-Si) is being developed as a high-quality wafer material that combines both the high diffusion length of minority carriers of up to 1300 μm of c-Si and the productivity of mc-Si. More than 1000 μm LID free diffusion length could be reached with specially doped tri-crystals. Due to an increased mechanical stability tri-Si allows both quasi-continuous pulling and thin slicing with higher mechanical yields. This paper reviews the structural, electronic, and mechanical properties of tri-crystalline silicon wafers with respect to c-Si wafers for solar applications. Actual non-textured solar cells processed with a simple cost effective fabrication process exhibit the same cell efficiencies up to 15.9% for both tri-silicon and mono-silicon wafers. With an improved process, up to 18% cell efficiency can be obtained with textured mono-Si.
Keywords
Tri-crystalline silicon , solar cells , Lid free material , Mono-crystalline silicon
Journal title
Solar Energy Materials and Solar Cells
Serial Year
2002
Journal title
Solar Energy Materials and Solar Cells
Record number
1477847
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