2021
DOI: 10.1016/j.vacuum.2020.110007
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Numerical and experimental investigation of octagonal thermal field for improving multi-crystalline silicon ingot quality

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Cited by 11 publications
(6 citation statements)
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“…They found that the formation of twin boundaries was always accompanied by an obvious increase in the growth rate and twins were hardly formed when the growth rate was constant at a high value. Zhai et al [55] investigated the atomic mechanism of twin formation along (111), (112), (110), and (100) planes by molecular dynamics simulations. They found that twins must Left: simplified scheme of the formation of sub-GBs from dislocation pileups starting at a grain boundary.…”
Section: Multicrystalline Grains and Twinsmentioning
confidence: 99%
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“…They found that the formation of twin boundaries was always accompanied by an obvious increase in the growth rate and twins were hardly formed when the growth rate was constant at a high value. Zhai et al [55] investigated the atomic mechanism of twin formation along (111), (112), (110), and (100) planes by molecular dynamics simulations. They found that twins must Left: simplified scheme of the formation of sub-GBs from dislocation pileups starting at a grain boundary.…”
Section: Multicrystalline Grains and Twinsmentioning
confidence: 99%
“…The resultant interface shapes and contour plots of the 3D S/L height of the ingots demonstrated that the 3D S/L interface presented a distorted shape at the periphery of G8 ingot with traditional side heaters, while a nearly flat and highly symmetrical structure was achieved in the improved ones due to the greatly reduced Lorentz force density in the silicon melt. [ 111 ] He et al [ 112 ] designed an octagonal thermal field to improve the quality of ingots with larger loading capacity. Finally, they obtained a more uniform temperature distribution and lower‐temperature gradients in the octagonal furnace compared with that in the conventional furnace.…”
Section: Cost Factorsmentioning
confidence: 99%
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“…Hence it exhibits longer minority carrier lifetime and higher cell efficiency than those of multicrystalline silicon (MC-Si). [1][2][3] In order to enhance the competitiveness of the MC-Si, a lot of enterprises have begun to produce cast monocrystalline silicon (CMC-Si) by directional solidification method. The CMC-Si ingots are characterized with high proportion of (100) crystallographic orientation and less grain boundaries, so the solar cell efficiency of CMC-Si is close to that of Czochralski (CZ) mono-Si, but the cost is much lower owing to the directional solidification technology.…”
Section: Introductionmentioning
confidence: 99%
“…This modification improves 0.12% conversion efficiency. [5] Numerical study was done in upgraded hot zone DS process. [6] Flat or slightly convex m-c interface obtained from modified bottom insulation.…”
Section: Introductionmentioning
confidence: 99%