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Toward Efficiency Limits of Crystalline Silicon Solar Cells: Recent Progress in High‐Efficiency Silicon Heterojunction Solar Cells

Zhaoqing Sun, Xiaoqing Chen, Yongcai He, Jingjie Li, Jianqiang Wang, Hui Yan, Yongzhe Zhang

2022Advanced Energy Materials232 citationsDOI

Abstract

Abstract Photovoltaic (PV) technology is ready to become one of the main energy sources of, and contributers to, carbon neutrality by the mid‐21st century. In 2020, a total of 135 GW of PV modules were produced. Crystalline silicon solar cells dominate the world's PV market due to high power conversion efficiency, high stability, and low cost. Silicon heterojunction (SHJ) solar cells are one of the promising technologies for next‐generation crystalline silicon solar cells. Compared to the commercialized homojunction silicon solar cells, SHJ solar cells have higher power conversion efficiency, lower temperature coefficient, and lower manufacturing temperatures. Recently, several new record efficiencies have been achieved. To meet the continued demand for high‐efficiency solar cells, expectations for large‐scale mass production of SHJ solar cells are rising. To approach the efficiency limit and industrialization of SHJ solar cells, serious attempts have been made, yielding higher short‐circuit current, open‐circuit voltage, and fill factor. In this article, these recent advancements are reviewed, which reveals the future roadmap for approaching the efficiency limit.

Topics & Concepts

Materials sciencePhotovoltaic systemCrystalline siliconPolymer solar cellEnergy conversion efficiencyHomojunctionQuantum dot solar cellSiliconOptoelectronicsSolar cellEngineering physicsPhotovoltaicsMonocrystalline siliconHybrid solar cellNanotechnologyHeterojunctionElectrical engineeringPhysicsEngineeringSilicon and Solar Cell TechnologiesPhotovoltaic System Optimization Techniquessolar cell performance optimization
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