Role of buffer layer on the performances of amorphous silicon solar cells with incorporated nanoparticles produced by plasma enhanced chemical vapor deposition at 27.12 MHz

L. Raniero; S. Zhang H. Aguas; I. Ferreira; R. Igreja; E. Fortunato; R. Martins

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Role of buffer layer on the performances of amorphous silicon solar cells with incorporated nanoparticles produced by plasma enhanced chemical vapor deposition at 27.12 MHz

机译：缓冲层对掺入纳米粒子的非晶硅太阳能电池性能的作用，该纳米粒子是通过在27.12 MHz的等离子体增强化学气相沉积制得的

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The aim of this paper is to present results concerning the role of the buffer layer on pin devices, deposited in a single chamber for plasma enhanced chemical vapor deposition, using high hydrogen dilution and pressures at 27.12 MHz. By doing so, we allow the incorporation of nanoparticles into the i-layer, during plasma process. The results show solar cells with 8.8% efficiency with a collection efficiency of 95% in the blue region of the spectra. Apart from that, the results from impedance spectroscopy, imaginary impedance vs. real impedance, show difference of a semicircle radius as function of sample temperatures, which could be explained by total device series resistance variation.

机译：本文的目的是提出有关针装置上缓冲层的作用的结果，该装置使用高氢气稀释度和27.12 MHz的压力沉积在单个腔室中，用于等离子体增强的化学气相沉积。通过这样做，我们允许在等离子过程中将纳米颗粒结合到i层中。结果显示太阳能电池的效率为8.8％，在光谱的蓝色区域中的收集效率为95％。除此之外，阻抗谱（虚阻抗与实阻抗）的结果还显示出半圆半径随样品温度的变化，这可以用整个器件串联电阻的变化来解释。

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来源
《Thin Solid Films》 |2005年第2期|p.170-173|共4页
作者
L. Raniero; S. Zhang H. Aguas; I. Ferreira; R. Igreja; E. Fortunato; R. Martins;
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作者单位

Departamento de Ciencia dos Materials, Faculdade de Ciencias e Tecnologia, Universidade Nova de Lisboa and CEMOP-UNINOVA, Campus da Caparica, 2829-516 Caparica, Portugal;

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正文语种 eng
中图分类工程材料学;
关键词
aolar cells; conversion efficiency; impedance spectroscopy;

机译：太阳能电池转换效率阻抗谱;

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1. Simulation and Experimental Study of Photogeneration and Recombination in Amorphous-Like Silicon Thin Films Deposited by 27.12 MHz Plasma-Enhanced Chemical Vapor Deposition [J] . Chia-Hsun Hsu, In-Cha Hsieh, Chia-Chi Tsou, International Journal of Photoenergy . 2013,第Pta2期

机译：27.12 MHz等离子体增强化学气相沉积沉积的非晶硅薄膜的光生和复合行为的模拟和实验研究
2. Simulation and Experimental Study of Photogeneration and Recombination in Amorphous-Like Silicon Thin Films Deposited by 27.12 MHz Plasma-Enhanced Chemical Vapor Deposition [J] . Chia-HsunHsu, In-ChaHsieh, Chia-ChiTsou, International Journal of Photoenergy . 2013,第2期

机译：27.12 MHz等离子体增强化学气相沉积法沉积非晶硅薄膜的光生和复合行为的模拟和实验研究
3. Development of plasma-enhanced chemical vapor deposition microcrystalline silicon oxide as a replacement for N-type or back transparent conducting oxide layers in amorphous silicon single-junction solar cells [J] . Shin-Wei Liang, Hung-Jung Hsu, Cheng-Hang Hsu, Canadian Journal of Physics . 2014,第7a8期

机译：等离子体增强化学气相沉积微晶氧化硅的开发，以替代非晶硅单结太阳能电池中的N型或背面透明导电氧化物层
4. Effect of Three Different Masks Configuration on the Electrical Characteristics of Amorphous Silicon Solar Cells using Plasma Enhanced Chemical Vapor Deposition [C] . Kawtar Belrhiti Alaoui, Saida Laalioui, Badr Ikken, International Renewable and Sustainable Energy Conference . 2018

机译：三种不同的掩模配置对等离子增强化学气相沉积法对非晶硅太阳能电池电学特性的影响
5. Design and modeling of graded bandgap amorphous silicon-germanium solar cells fabricated by plasma enhanced chemical vapor deposition. [D] . Baldwin, Greg Charles. 1994

机译：通过等离子增强化学气相沉积法制备的带隙非晶硅锗渐变太阳能电池的设计与建模。
6. Transferless Inverted Graphene/Silicon Heterostructures Prepared by Plasma-Enhanced Chemical Vapor Deposition of Amorphous Silicon on CVD Graphene [O] . Martin Müller, Milan Bouša, Zdeňka Hájková, 2020

机译：CVD石墨烯上等离子增强化学气相沉积法制备的无转移反型石墨烯/硅异质结构
7. Simulation and Experimental Study of Photogeneration and Recombination in Amorphous-Like Silicon Thin Films Deposited by 27.12 MHz Plasma-Enhanced Chemical Vapor Deposition [O] . Chia-Hsun Hsu, In-Cha Hsieh, Chia-Chi Tsou, 2013

机译：27.12MHz等离子体增强化学气相沉积沉积的无定形硅薄膜中光生殖和重组的模拟与实验研究
8. Model for the Discharge Kinetics and Plasma Chemistry during Plasma Enhanced Chemical Vapor Deposition of Amorphous Silicon [R] . Kushner, M. J. 1988

机译：非晶硅等离子体增强化学气相沉积过程中放电动力学和等离子体化学模型

Role of buffer layer on the performances of amorphous silicon solar cells with incorporated nanoparticles produced by plasma enhanced chemical vapor deposition at 27.12 MHz

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