碲化镉光电
光伏系统
硒化铜铟镓太阳电池
晶体硅
材料科学
工程物理
铟
可靠性(半导体)
基质(水族馆)
光电子学
纳米技术
太阳能电池
工艺工程
电气工程
工程类
物理
功率(物理)
量子力学
海洋学
地质学
作者
Jeff Kettle,Mohammadreza Aghaei,Shahzada Ahmad,Andrew Fairbrother,S.J.C. Irvine,T. Jesper Jacobsson,Samrana Kazim,V. Kažukauskas,D.A. Lamb,K. Lobato,G.A. Mousdis,Gernot Oreški,Angèle Reinders,Jurriaan Schmitz,Pelin Yilmaz,Mirjam Theelen
摘要
Abstract A comprehensive understanding of failure modes of solar photovoltaic (PV) modules is key to extending their operational lifetime in the field. In this review, first, specific failure modes associated with mature PV technologies, such as crystalline silicon (c‐Si), copper indium gallium selenide (CIGS) and cadmium telluride (CdTe), are framed by sources of specific failure modes, their development from the early‐developmental stages onwards and their impact upon long term performance of PV modules. These failure modes are sorted by both PV technology and location of occurrence in PV modules, such as substrate, encapsulant, front and rear electrode, absorber and interlayers. The second part of the review is focused on emerging PV technologies, such as perovskites solar cells, dye sensitised and organic PVs, where due to their low to medium technology readiness levels, specific long‐term degradation mechanisms have not fully emerged, and most mechanisms are only partially understood. However, an in‐depth summary of the known stability challenges associated with each emerging PV technology is presented. Finally, in this paper, lessons learned from mature PV technologies are reviewed, and considerations are given in to how these might be applied to the further development of emerging technologies. Namely, any emerging PV technology must eventually pass industry‐standard qualification tests, while warranties for the lifetime of modern c‐Si‐based modules might be extended beyond the existing warranted life of 25 years.
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