Generation of dislocation clusters at triple junctions of random angle grain boundaries during cast growth of silicon ingots

Yutaka Ohno; Kazuya Tajima; Kentaro Kutsukake; Noritaka Usami

doi:10.35848/1882-0786/abbb1c

Generation of dislocation clusters at triple junctions of random angle grain boundaries during cast growth of silicon ingots

Yutaka Ohno, Kazuya Tajima, Kentaro Kutsukake, Noritaka Usami

IMR - Institute for Materials Research (institute affiliation only)

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Three-dimensional distribution of grain boundaries (GBs) and generation sources of dislocation clusters is examined in a cast-grown high-performance multicrystalline silicon ingot for commercial solar cells. A significant number of dislocations are generated nearby some triple junctions of random angle GBs, although it is believed that such non-coherent GBs would not induce large strain during the cast growth. This explosive generation of dislocations would take place when the triple junctions are interacted with multiple Σ3{111} GBs. A segment of the random angle GB connected with a pair of Σ3{111} GBs nearby the triple junction would act as a dislocation source.

Original language	English
Article number	105505
Journal	Applied Physics Express
Volume	13
Issue number	10
DOIs	https://doi.org/10.35848/1882-0786/abbb1c
Publication status	Published - 2020 Oct 6

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abstract = "Three-dimensional distribution of grain boundaries (GBs) and generation sources of dislocation clusters is examined in a cast-grown high-performance multicrystalline silicon ingot for commercial solar cells. A significant number of dislocations are generated nearby some triple junctions of random angle GBs, although it is believed that such non-coherent GBs would not induce large strain during the cast growth. This explosive generation of dislocations would take place when the triple junctions are interacted with multiple Σ3{111} GBs. A segment of the random angle GB connected with a pair of Σ3{111} GBs nearby the triple junction would act as a dislocation source.",

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AU - Usami, Noritaka

PY - 2020/10/6

Y1 - 2020/10/6

N2 - Three-dimensional distribution of grain boundaries (GBs) and generation sources of dislocation clusters is examined in a cast-grown high-performance multicrystalline silicon ingot for commercial solar cells. A significant number of dislocations are generated nearby some triple junctions of random angle GBs, although it is believed that such non-coherent GBs would not induce large strain during the cast growth. This explosive generation of dislocations would take place when the triple junctions are interacted with multiple Σ3{111} GBs. A segment of the random angle GB connected with a pair of Σ3{111} GBs nearby the triple junction would act as a dislocation source.

AB - Three-dimensional distribution of grain boundaries (GBs) and generation sources of dislocation clusters is examined in a cast-grown high-performance multicrystalline silicon ingot for commercial solar cells. A significant number of dislocations are generated nearby some triple junctions of random angle GBs, although it is believed that such non-coherent GBs would not induce large strain during the cast growth. This explosive generation of dislocations would take place when the triple junctions are interacted with multiple Σ3{111} GBs. A segment of the random angle GB connected with a pair of Σ3{111} GBs nearby the triple junction would act as a dislocation source.

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Generation of dislocation clusters at triple junctions of random angle grain boundaries during cast growth of silicon ingots

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