Xingqian Chen, Yan Wang, Wei Chen, Yaoping Liu, Guoguang Xing, Bowen Feng, Haozhen Li, Zongheng Sun, Xiaolong Du
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引用次数: 0
摘要
利用无掩模碱性溶液蚀刻技术和自主开发的添加剂,制造出了具有 V 型沟槽纹理的硅钝化发射极和后触点(PERC)太阳能电池。与传统的金字塔纹理相比,V 形槽纹理具有更长的有效少数载流子寿命、更高的 p-n 结质量和更好的应用填充因子 (FF)。此外,当 V 形槽方向与栅线电极平行时,V 形槽纹理可大大减少正面 Ag 电极的阴影面积和边缘损伤。由于这些因素,V 形槽太阳能电池的效率(21.78%)高于金字塔太阳能电池(21.62%)。有趣的是,当入射光角度(θ)从 0°增加到 75°时,V 形槽太阳能电池的外部量子效率(EQE)和反射率略有下降,这证实了 V 形槽太阳能电池具有出色的准全向性。与传统的金字塔形太阳能电池相比,拟议的 V 形槽太阳能电池设计的能量输出相对提高了 2.84%。
Maskless fabrication of quasi-omnidirectional V-groove solar cells using an alkaline solution-based method
Silicon passivated emitter and rear contact (PERC) solar cells with V-groove texture were fabricated using maskless alkaline solution etching with in-house developed additive. Compared with the traditional pyramid texture, the V-groove texture possesses superior effective minority carrier lifetime, enhanced p–n junction quality and better applied filling factor (FF). In addition, a V-groove texture can greatly reduce the shading area and edge damage of front Ag electrodes when the V-groove direction is parallel to the gridline electrodes. Due to these factors, the V-groove solar cells have a higher efficiency (21.78%) than pyramid solar cells (21.62%). Interestingly, external quantum efficiency (EQE) and reflectance of the V-groove solar cells exhibit a slight decrease when the incident light angle (θ) is increased from 0° to 75°, which confirms the excellent quasi omnidirectionality of the V-groove solar cells. The proposed V-groove solar cell design shows a 2.84% relative enhancement of energy output over traditional pyramid solar cells.
期刊介绍:
Chinese Physics B is an international journal covering the latest developments and achievements in all branches of physics worldwide (with the exception of nuclear physics and physics of elementary particles and fields, which is covered by Chinese Physics C). It publishes original research papers and rapid communications reflecting creative and innovative achievements across the field of physics, as well as review articles covering important accomplishments in the frontiers of physics.
Subject coverage includes:
Condensed matter physics and the physics of materials
Atomic, molecular and optical physics
Statistical, nonlinear and soft matter physics
Plasma physics
Interdisciplinary physics.