Origin of recombination activity of non-coherent Σ3{111} grain boundaries with a positive deviation in the tilt angle in cast-grown silicon ingots

Yutaka Ohno; Takehiro Tamaoka; Hideto Yoshida; Yasuo Shimizu; Kentaro Kutsukake; Yasuyoshi Nagai; Noritaka Usami

doi:10.35848/1882-0786/abd0a0

Origin of recombination activity of non-coherent Σ3{111} grain boundaries with a positive deviation in the tilt angle in cast-grown silicon ingots

Yutaka Ohno, Takehiro Tamaoka, Hideto Yoshida, Yasuo Shimizu, Kentaro Kutsukake, Yasuyoshi Nagai, Noritaka Usami

The Ultramicroscopy Research Center

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

4 Citations (Scopus)

Abstract

Non-coherent Σ3{111} grain boundaries (GBs) with a positive deviation in the tilt angle (θ 110 > 70.5°) exhibit a high recombination activity in high-performance multicrystalline silicon ingots. Most of the GB segments are composed of edge-type dislocations with the Burgers vector b of a/3111, unlike Lomer dislocations with b = a/2110 observed for negative deviations, arranged on coherent Σ3{111} GB segments. Stretched 110 reconstructed bonds along the tilt axis are introduced so as not to form dangling bonds, and large strains are generated around the dislocation cores. Oxygen and carbon atoms segregating due to the strains would induce the recombination activity.

Original language	English
Article number	011002
Journal	Applied Physics Express
Volume	14
Issue number	1
DOIs	https://doi.org/10.35848/1882-0786/abd0a0
Publication status	Published - 2021

All Science Journal Classification (ASJC) codes

Engineering(all)
Physics and Astronomy(all)

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10.35848/1882-0786/abd0a0

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title = "Origin of recombination activity of non-coherent Σ3{111} grain boundaries with a positive deviation in the tilt angle in cast-grown silicon ingots",

abstract = "Non-coherent Σ3{111} grain boundaries (GBs) with a positive deviation in the tilt angle (θ 110 > 70.5°) exhibit a high recombination activity in high-performance multicrystalline silicon ingots. Most of the GB segments are composed of edge-type dislocations with the Burgers vector b of a/3111, unlike Lomer dislocations with b = a/2110 observed for negative deviations, arranged on coherent Σ3{111} GB segments. Stretched 110 reconstructed bonds along the tilt axis are introduced so as not to form dangling bonds, and large strains are generated around the dislocation cores. Oxygen and carbon atoms segregating due to the strains would induce the recombination activity. ",

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T1 - Origin of recombination activity of non-coherent Σ3{111} grain boundaries with a positive deviation in the tilt angle in cast-grown silicon ingots

AU - Ohno, Yutaka

AU - Tamaoka, Takehiro

AU - Yoshida, Hideto

AU - Shimizu, Yasuo

AU - Kutsukake, Kentaro

AU - Nagai, Yasuyoshi

AU - Usami, Noritaka

PY - 2021

Y1 - 2021

N2 - Non-coherent Σ3{111} grain boundaries (GBs) with a positive deviation in the tilt angle (θ 110 > 70.5°) exhibit a high recombination activity in high-performance multicrystalline silicon ingots. Most of the GB segments are composed of edge-type dislocations with the Burgers vector b of a/3111, unlike Lomer dislocations with b = a/2110 observed for negative deviations, arranged on coherent Σ3{111} GB segments. Stretched 110 reconstructed bonds along the tilt axis are introduced so as not to form dangling bonds, and large strains are generated around the dislocation cores. Oxygen and carbon atoms segregating due to the strains would induce the recombination activity.

AB - Non-coherent Σ3{111} grain boundaries (GBs) with a positive deviation in the tilt angle (θ 110 > 70.5°) exhibit a high recombination activity in high-performance multicrystalline silicon ingots. Most of the GB segments are composed of edge-type dislocations with the Burgers vector b of a/3111, unlike Lomer dislocations with b = a/2110 observed for negative deviations, arranged on coherent Σ3{111} GB segments. Stretched 110 reconstructed bonds along the tilt axis are introduced so as not to form dangling bonds, and large strains are generated around the dislocation cores. Oxygen and carbon atoms segregating due to the strains would induce the recombination activity.

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Origin of recombination activity of non-coherent Σ3{111} grain boundaries with a positive deviation in the tilt angle in cast-grown silicon ingots

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