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Achieving a high Short Circuit Current Density of 40.9 mA/cm² for Two-Side Contacted Silicon Heterojunction Solar Cells by using SiC-based Transparent Passivating Contacts

机译：通过使用基于SiC的透明钝化触点来实现两侧接触硅异质结太阳能电池的高电路电流密度为40.9 mA / cm 2

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A silicon heterojunction solar cell using silicon carbide as front contact is presented, which features the main advantage of high transparency. To enhance this advantage, an optical loss analysis is performed. It is found that reflection losses play an important role for the solar cell, which can easily be reduced by applying an additional MgF2 coating. The deposition of the coating degrades the passivation quality of the contact but can be cured, eventually leading to a certified short circuit current density of 40.9 mA/cm² and efficiency of 23.99%. Afterwards, a roadmap to a theoretical efficiency of 25% is presented.

机译：介绍了使用碳化硅作为前触点的硅异质结太阳能电池，其具有高透明度的主要优点。为了增强该优点，执行光学损耗分析。结果发现反射损耗对太阳能电池发挥着重要作用，这通过施加额外的MGF2涂层可以容易地降低。涂层的沉积降低了触点的钝化质量，但可以固化，最终导致经过认证的短路电流密度为40.9 mA / cm 2，效率为23.99％。之后，呈现了理论效率为25％的路线图。

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《IEEE Photovoltaic Specialists Conference》|2021年|0300-0302|共3页
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Alexander Eberst; Alexandr Zamchiy; Kaifu Qiu; Andreas Lambertz; Weiyuan Duan; Shenghao Li; Karsten Bittkau; Stefan Haas; Friedhelm Finger; Thomas Kirchartz; Uwe Rau; Kaining Ding;
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Optical losses; Photovoltaic systems; Silicon carbide; Photovoltaic cells; Short-circuit currents; Heterojunctions; Silicon;

机译：光学损失;光伏系统;碳化硅;光伏电池;短路电流;异性结;硅;

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1. Tunnel oxide passivating electron contacts for high-efficiency n-type silicon solar cells with amorphous silicon passivating hole contacts [J] . Park HyunJung, Lee Youngseok, Park Se Jin, Progress in photovoltaics . 2019,第12期

机译：用于高效N型硅太阳能电池的隧道钝化电子触点，具有非晶硅钝化孔触点
2. Wet-Chemical Preparation of Silicon Tunnel Oxides for Transparent Passivated Contacts in Crystalline Silicon Solar Cells [J] . Koehler Malte, Pomaska Manuel, Lentz Florian, ACS applied materials & interfaces . 2018,第17期

机译：用于晶体硅太阳能电池中透明钝化触点的硅隧道氧化物的湿化学制剂
3. Optimum driving energy for achieving balanced open-circuit voltage and short-circuit current density in organic bulk heterojunction solar cells [J] . Yang Wenchao, Yao Yao, Guo Pengfei, Physical chemistry chemical physics: PCCP . 2018,第47期

机译：用于在有机散装异质结太阳能电池中实现平衡开路电压和短路电流密度的最佳驱动能量
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机译：原子层沉积ZnO：B作为透明导电氧化物，用于硅杂交太阳能电池中的短路电流密度增加
5. Passivated Contacts for High Efficiency Monocrystalline Silicon Solar Cells [D] . Kale, Abhijit S. 2019

机译：高效单晶硅太阳能电池的钝化触点
6. Formation and suppression of hydrogen blisters in tunnelling oxide passivating contact for crystalline silicon solar cells [O] . Sungjin Choi, Ohmin Kwon, Kwan Hong Min, -1

机译：晶体硅太阳能电池隧道氧化物钝化接触中氢气泡的形成和抑制
7. Atomic Layer Deposited ZnO: B As Transparent Conductive Oxide for Increased Short Circuit Current Density in Silicon Heterojunction Solar Cells [O] . Gatz Henriette A., Koushik Dibyashree, Rath Jatin K., 2016

机译：原子层沉积的ZnO：B作为透明导电氧化物，可增加硅异质结太阳能电池的短路电流密度
8. Well-Passivated a-Si:H Back Contacts for Double Heterojunction Silicon Solar Cells [R] . Page, M. R. 2006

机译：用于双异质结硅太阳能电池的良好钝化的a-si：H背触点

Achieving a high Short Circuit Current Density of 40.9 mA/cm² for Two-Side Contacted Silicon Heterojunction Solar Cells by using SiC-based Transparent Passivating Contacts

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