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Effects of in-situ boron doping in Si epitaxial growth on a VIC processed poly-Si seed layer using Hot-wire CVD

机译：使用热线CVD在VIC加工聚乙片种子层对Si外延生长的原位硼掺杂的影响

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We investigated the epitaxial growth of large-grained poly-Si film on vapor induced crystallization (VIC) seed layer using hot-wire chemical vapor deposition(HWCVD) for hetero-junction Si solar cells. In this study, p-type poly-Si films were prepared by changing in-situ boron doping time. After epitaxial growth on VIC seed layer, average grain size of about 20 μm, are obtained and the crystallographic defects in epitaxial poly-Si layer on VIC seed layer are mainly low angle grain boundaries (LAGB < 2°) and coincident site lattice boundaries (CSL), which are special boundaries of less electrical activity. Moreover, with decreasing in-situ boron doping time, mis-orientation angle and in-grain defects in epitaxial Si decrease. Using in-situ boron doping, highly doped p+ back surface field layer was fabricated, and it had high Hall mobility.

机译：我们研究了使用热线化学气相沉积（HWCVD）用于杂连接Si太阳能电池的蒸气诱导结晶（VIC）种子层对蒸气诱导的结晶（VIC）种子的外延生长。在本研究中，通过在原位硼掺杂时间改变原位硼制备p型多Si膜。在VIC种子层上外延生长后，获得约20μm的平均晶粒尺寸，并且在VIC种子层上的外延多Si层中的晶体缺陷主要是低角度晶界（LAGB <2°）和重合的位点晶格边界（ CSL），这是电气活动较少的特殊边界。此外，随着原位硼掺杂时间的降低，外延Si中的错误取向角度和晶粒缺陷减少。使用原位硼掺杂，制造高度掺杂的P +背面场层，具有高霍尔迁移率。

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《Symposium on Photovoltaics for the Century》|2011年||共8页
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Seung Mo Kang; Kyung Min Ahn; Chang Soo Lee; Seon Hong Mun; Byung Tae Ahn;
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1. Investigation of In-situ Boron-Doped Si Selective Epitaxial Growth by Comparison with Arsenic Doping [J] . Tetsuya Ikuta, Shigeru Fujita, Hayato Iwamoto, Japanese journal of applied physics . 2008,第4issue2期

机译：与砷掺杂比较研究原位掺杂硼的Si选择性外延生长
2. Atomic composition and electrical characteristics of epitaxial CVD diamond layers doped with boron (vol 50, pg 1569, 2017) [J] . Surovegina E. A., Demidov E. V., Drozdov M. N., Semiconductors . 2017,第8期

机译：掺杂硼的外延CVD金刚石层的原子组成和电气特性（Vol 50，PG 1569,2017）
3. Influence of the Doping Gas on the Axial Uniformity of the Growth Rate and the Electrical Properties of LPCVD In-Situ Doped Polysilicon Layers [J] . D. Briand, M. Sarret, P. Duverneuil, Journal de Physique, IV: Proceedings of International Conference . 1995,第5aPta2期

机译：掺杂气体对生长速率轴向均匀性和LPCVD原位掺杂多晶硅层电学性能的影响
4. Effects of in-situ boron doping in Si epitaxial growth on a VIC processed poly-Si seed layer using Hot-wire CVD [C] . Seung Mo Kang, Kyung Min Ahn, Chang Soo Lee, Photovoltaics for the 21st century 7 . 2011

机译：热线CVD在VIC处理的多晶硅籽晶层上进行Si外延生长中的原位硼掺杂的影响
5. Finite element modeling the solid phase epitaxial growth of boron-doped silicon layers. [D] . Hong, Sang-Min. 2005

机译：有限元模拟掺硼硅层的固相外延生长。
6. The Interface and Mechanical Properties of a CVD Single Crystal Diamond Produced by Multilayered Nitrogen Doping Epitaxial Growth [O] . Yun Zhao, Chengming Li, Jinlong Liu, 2019

机译：多层氮掺杂外延生长法制备的CVD单晶金刚石的界面和力学性能
7. In-Situ Boron and Aluminum Doping and Their Memory Effects in 4H-SiC Homoepitaxial Layers Grown by Hot-Wall LPCVD [O] . Guosheng Sun, Yongmei Zhao, Liang Wang, 2016

机译：热壁LpCVD生长4H-siC同质外延层中的原位硼和铝掺杂及其记忆效应

Effects of in-situ boron doping in Si epitaxial growth on a VIC processed poly-Si seed layer using Hot-wire CVD

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