Using phosphorus doped hydrogenated silicon oxycarbide film as a window layer on the light entrance side of silicon heterojunction solar cells: The role of phase separation on electron transport

IF 6.3 2区 材料科学 Q2 ENERGY & FUELS Solar Energy Materials and Solar Cells Pub Date : 2024-11-07 DOI:10.1016/j.solmat.2024.113283
X.Y. Chen , X.L. Jiang , J.B. Zhang , Z.N. Zhang , L.J. Gou , W.J. Xue , H.P. Yin , X.W. Niu , Z. Ouyang
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Abstract

The phosphorus doped hydrogenated nanocrystalline silicon oxycarbide (n-nc-SiCO:H) layer can be used as a window layer on the light incident side of silicon heterojunction solar cells (HJT). The chemical composition, structural organization and properties of the n-nc-SiCO:H layer deposited from plasma enhanced chemical vapor deposition (PECVD) method can be easily manipulated via radio frequency power density tuned. Phase separation is observed in the n-nc-SiCO:H layer in which nanoscale silicon crystallites were embedded in amorphous silicon oxycarbide matrix. The optical properties of the n-nc-SiCO:H layer are depended on oxygen and carbon atoms incorporation ratio. The conductivity of the n-nc-SiCO:H layer is dominated by activated phosphorus concentration and the phase separation. The activated phosphorus atoms which play an important role on electron transportation are distributed in both crystalline silicon phase and amorphous silicon phase. Both activated phosphorus concentration and band gap value for oxygen rich amorphous silicon oxycarbide layer are determined by incorporation ratio of O atoms. The interplay effects of optical and electrical properties of the n-nc-SiCO:H layers on HJT cells electric performance variation are revealed out in this report. An average efficiency (across ∼120 cells) of 26.3 % was achieved in cells with optimized power density for the n-nc-SiCO:H layer. The results demonstrate that phase separation in the n-nc-SiCO:H layer plays a critical role on electron transportation.
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将掺磷氢化碳化硅薄膜作为硅异质结太阳能电池光入口侧的窗口层:相分离对电子传输的作用
掺磷氢化纳米晶硅碳氧化合物(n-nc-SiCO:H)层可用作硅异质结太阳能电池(HJT)光入射侧的窗口层。利用等离子体增强化学气相沉积(PECVD)方法沉积的 n-nc-SiCO:H 层的化学成分、结构组织和特性可通过射频功率密度调节轻松实现。在 n-nc-SiCO:H 层中观察到了相分离现象,其中纳米级硅晶体被嵌入非晶态氧碳化硅基体中。n-nc-SiCO:H 层的光学特性取决于氧原子和碳原子的掺入比例。n-nc-SiCO:H 层的导电性受活性磷浓度和相分离的影响。对电子传输起重要作用的活性磷原子同时分布在晶体硅相和非晶硅相中。富氧非晶硅氧碳化物层的活性磷浓度和带隙值都取决于 O 原子的掺入比例。本报告揭示了 n-nc-SiCO:H 层的光学和电学特性对 HJT 电池电性能变化的相互影响。在优化了 n-nc-SiCO:H 层功率密度的电池中,平均效率(120 个电池)达到了 26.3%。结果表明,n-nc-SiCO:H 层中的相分离对电子传输起着关键作用。
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来源期刊
Solar Energy Materials and Solar Cells
Solar Energy Materials and Solar Cells 工程技术-材料科学:综合
CiteScore
12.60
自引率
11.60%
发文量
513
审稿时长
47 days
期刊介绍: Solar Energy Materials & Solar Cells is intended as a vehicle for the dissemination of research results on materials science and technology related to photovoltaic, photothermal and photoelectrochemical solar energy conversion. Materials science is taken in the broadest possible sense and encompasses physics, chemistry, optics, materials fabrication and analysis for all types of materials.
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