期刊
ADVANCED ENERGY MATERIALS
卷 8, 期 5, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/aenm.201701883
关键词
interface engineering; planar p-i-n structures; perovskite solar cells
类别
资金
- HK-RGC General Research Funds [16312216, 16300915]
- HK Innovation and Technology Fund [ITS/219/16]
- Shenzhen Peacock Plan
- Natural Science Foundation of China [21503011]
- Fundamental Research Funds for the Central Universities [buctrc201516]
Organic-inorganic halide perovskite materials have become a shining star in the photovoltaic field due to their unique properties, such as high absorption coefficient, optimal bandgap, and high defect tolerance, which also lead to the breathtaking increase in power conversion efficiency from 3.8% to over 22% in just seven years. Although the highest efficiency was obtained from the TiO2 mesoporous structure, there are increasing studies focusing on the planar structure device due to its processibility for large-scale production. In particular, the planar p-i-n structure has attracted increasing attention on account of its tremendous advantages in, among other things, eliminating hysteresis alongside a competitive certified efficiency of over 20%. Crucial for the device performance enhancement has been the interface engineering for the past few years, especially for such planar p-i-n devices. The interface engineering aims to optimize device properties, such as charge transfer, defect passivation, band alignment, etc. Herein, recent progress on the interface engineering of planar p-i-n structure devices is reviewed. This review is mainly focused on the interface design between each layer in p-i-n structure devices, as well as grain boundaries, which are the interfaces between polycrystalline perovskite domains. Promising research directions are also suggested for further improvements.
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