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Performance analysis of a-Si:H p-i-n solar cells with and without a buffer layer at the p/i interface

机译：A-Si：H P-I-N太阳能电池的性能分析，在P / I接口处没有缓冲层

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Light soaking experiments have been conducted on a-Si: H p-i-n solar cells with a silicon carbide buffer layer at the p/i interface. The rate of light induced degradation in the performance of these solar cells is higher in the initial stages of light soaking and assumes the same levels as the cells without a buffer layer with prolonged light soaking. Computer modelling has revealed that a graded band gap buffer layer at the p/i interface containing a slightly acceptor doped defective layer next to the p-layer improves the initial performance of a-Si:H p-i-n solar cells. The modelling also reveals that the effect of the buffer layer on solar cell performance depends critically on the configuration and composition of the buffer layer.

机译：在P / I界面处用碳化硅缓冲层的A-Si：H P-I-N太阳能电池进行光浸泡实验。在光浸泡的初始阶段的初始阶段的性能下，光引起的降解速率较高，并且假定与具有延长光浸泡的缓冲层的电池相同的水平。计算机建模揭示了P / I界面处的渐变带隙缓冲层，其含有稍微受体掺杂缺陷层的P界面改善了A-Si：H P-I-N太阳能电池的初始性能。该建模还揭示了缓冲层对太阳能电池性能的影响尺寸在缓冲层的构型和组成上取决于尺寸。

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《Conference on Photo-Responsive Materials》|2004年||共6页
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G. Munyeme; M. Zeman; R. E. I. Schropp; W. F. van der Weg;
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中图分类材料;
关键词
elemental semiconductors; amorphous semiconductors; nanoscale materials and structures: fabrication and characterization; photoelectric conversion; solar cells and arrays;

机译：元素半导体;非晶半导体;纳米级材料和结构：制造和表征;光电转换;太阳能电池和阵列;

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专利

1. Performance analysis of a-Si:H p-i-n solar cells with and without a buffer layer at the p/i interface [J] . G. Munyeme, M. Zeman, R. E. I. Schropp, Physica Status Solidi. C, Conferences and critical reviews . 2004,第9期

机译：在p / i界面上有缓冲层和无缓冲层的a-Si：H p-i-n太阳能电池的性能分析
2. PERFORMANCE DEPENDENCE OF A S-SI/A-SI DOUBLE JUNCTION SOLAR CELL ON THE QUALITY OF THE A-SI=C=H BUFFER LAYER AT P+-SI=C=H/I-A-SI=H INTERFACE [J] . Chaudhuri P., Batabyal AK., Barua AK., Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 1995,第1期

机译：S-SI / A-SI双结太阳能电池对P + -SI = C = H / I-A-SI = H接口处A-SI = C = H缓冲层质量的性能依赖性
3. Analysis of poly-Si thin film p~+-n-n~+ homojunction solar cell and heterojunction solar cell with and without a thin μc-Si layer at the interface of a-Si and poly-Si layers [J] . A.J. Letha, H.L. Hwang The European physical journal. Applied physics . 2009,第2期

机译：多晶硅薄膜p〜+ -n-n〜+同质结太阳能电池和异质结太阳能电池在a-Si和poly-Si层的界面处有和没有μc-Si薄层的分析
4. Performance analysis of a-Si:H p-i-n solar cells with and without a buffer layer at the p/i interface [C] . G. Munyeme, M. Zeman, R. E. I. Schropp, Conference on Photo-Responsive Materials; 20040225-29; Kariega Game Reserve(ZA) . 2004

机译：在p / i界面上有缓冲层和无缓冲层的a-Si：H p-i-n太阳能电池的性能分析
5. Numerical analysis and optimal design of efficient thin-film solar cells with novel buffer layers. [D] . Ibliha, Mohamed Hussein. 2015

机译：具有新型缓冲层的高效薄膜太阳能电池的数值分析和优化设计。
6. Role of a disperse carbon interlayer on the performances of tandem a-Si solar cells [O] . Andreia Araújo, Raquel Barros, Tiago Mateus, 2013

机译：碳分散中间层对串联非晶硅太阳能电池性能的作用
7. Comparison of a-SiC:H and a-SiN:H as candidate materials for a p-i interface layer in a-Si:H p-i-n solar cells [O] . Vet B., Zeman M. 2010

机译：比较a-SiC：H和a-SiN：H作为a-Si：H p-i-n太阳能电池中p-i界面层的候选材料

Performance analysis of a-Si:H p-i-n solar cells with and without a buffer layer at the p/i interface

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