Fabrication, and Characteristics of Pin-Type a-SiGe:H Thin-Film Solar Cells with a-Si:H Buffer and Graded Absorption Layer

TAE YONG LEE; WON HO SON; SANG KWON LEE

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Fabrication, and Characteristics of Pin-Type a-SiGe:H Thin-Film Solar Cells with a-Si:H Buffer and Graded Absorption Layer

机译：具有a-Si：H缓冲层和渐变吸收层的Pin型a-SiGe：H薄膜太阳能电池的制造和特性

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We have investigated the characteristics on hydrogenated amorphous silicon (a-Si:H) based solar cells of the various structures between the. doped layers. Through basic experiments about p-i-n solar cells of different structures (i-a-Si:H layer, constant-gap i-a-SiGe:H layer, graded-gap i-a-SiGe:H layer and a-Si:H buffer layer at pli interface), found that each cell has different advantages. Based on these results, we proposed the structure ofa-Si:H buffer/graded absorption layer between the doped layers to improve the performance of hydrogenated amorphous silicon-germanium (a-SiGe:H) based p-i-n solar cell. The proposed structure has advantages to reduce the absorption losses for longer wavelengths and dopant penetration to i-layer. In the proposed structure, we achieved a higher open-circuit voltage (V_(oc): 485 mV) and fill factor (FF: 0.57) than general a-SiGe.H solar cells.

机译：我们已经研究了基于氢化非晶硅（a-Si：H）的太阳能电池之间各种结构的特性。掺杂层。通过对不同结构的针式太阳能电池（ia-Si：H层，恒定间隙ia-SiGeGe：H层，渐变间隙ia-SiGeGe：H层和pli接口处的a-Si：H缓冲层）进行基础实验，发现每个单元都有不同的优势。基于这些结果，我们提出了掺杂层之间的a-Si：H缓冲层/渐变吸收层的结构，以提高基于氢化非晶硅锗（a-SiGe：H）的p-i-n太阳能电池的性能。所提出的结构的优点是减少了较长波长的吸收损耗和掺杂剂对i层的渗透。在提出的结构中，我们获得了比普通a-SiGe.H太阳能电池更高的开路电压（V_（oc）：485 mV）和填充系数（FF：0.57）。

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《Molecular crystals and liquid crystals》 |2013年第null期|共8页
作者
TAE YONG LEE; WON HO SON; SANG KWON LEE;
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正文语种 eng
中图分类晶体学;
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a-Si:H; a-SiGe:H; a-Si:H buffer; graded a-SiGe:H; pin-type solar cell;

机译：a-Si：H;a-SiGe：H;a-Si：H缓冲液;分级a-SiGe：H;pin型太阳能电池;

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1. Fabrication, and Characteristics of Pin-Type a-SiGe:H Thin-Film Solar Cells with a-Si:H Buffer and Graded Absorption Layer [J] . TAE YONG LEE, WON HO SON, SANG KWON LEE Molecular crystals and liquid crystals . 2013,第Null期

机译：具有a-Si：H缓冲层和渐变吸收层的Pin型a-SiGe：H薄膜太阳能电池的制造和特性
2. Efficiency improvement of a-Si:H Thin-Film Solar Cells by phosphorus doping of absorption layer with a-Si:H buffer layer at p/i interface [J] . Son Won Ho, Lee Si-Hun, Kim Jae Keon, Molecular crystals and liquid crystals . 2018,第期

机译：A-Si：H薄膜太阳能电池的效率改进通过磷掺杂，在P / I界面处用A-Si：H缓冲层掺杂
3. Characteristics of a-SiC:H/a-SiGe:H hetero-junction thin film solar cells with and without a-Si:H buffer layer at the p/i interface [J] . Won-Ho Son, Si-Hun Lee, Sie-Young Choi International Journal of Modern Physics, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2014,第17期

机译：在p / i界面处具有和不具有a-Si：H缓冲层的a-SiC：H / a-SiGe：H异质结薄膜太阳能电池的特性
4. Impacts of an intrinsic a-Si buffer layer between the p-type nc-Si layer and the intrinsic a-SiGe layer in single junction solar cells [C] . Changyong Chen Photovoltaic Specialists Conference (PVSC), 2011 37th IEEE . 2011

机译：单结太阳能电池中p型nc-Si层与本征a-SiGe层之间的本征a-Si缓冲层的影响
5. a-Si:H solar cells: SiH(2)Cl(2) as a source gas and a-SiGe:H alloys. [D] . Payne, Adam More. 1998

机译：a-Si：H太阳能电池：SiH（2）Cl（2）作为源气体和a-SiGe：H合金。
6. Performance-improved thin-film a-Si:H/μc-Si:H tandem solar cells by two-dimensionally nanopatterning photoactive layer [O] . Cheng Zhang, Xiaofeng Li, Aixue Shang, 2014

机译：通过二维纳米图案化光敏层提高性能的薄膜a-Si：H /μc-Si：H串联太阳能电池
7. The Study of Fabrication Technology for Absorption Layer and Mo Electrode based CIGS Thin-Film Solar Cell [O] . 陈伟 2015

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8. Investigation of polycrystalline thin-film CuInSe(sub 2) solar cells based on ZnSe and ZnO buffer layers. Final report, February 16, 1992--November 15, 1995 [R] . Olsen, L. C. 1996

机译：基于Znse和ZnO缓冲层的多晶薄膜CuInse（sub 2）太阳能电池的研究。最终报告，1992年2月16日 - 1995年11月15日

Fabrication, and Characteristics of Pin-Type a-SiGe:H Thin-Film Solar Cells with a-Si:H Buffer and Graded Absorption Layer

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