TY - JOUR
T1 - The Role of the Interfaces in Perovskite Solar Cells
AU - Shao, Shuyan
AU - Loi, Maria Antonietta
PY - 2020/1/9
Y1 - 2020/1/9
N2 - Organic-inorganic hybrid perovskite solar cells (HPSCs) have achieved an impressive power conversion efficiency (PCE) of 25.2% in 2019. At this stage, it is of paramount importance to understand in detail the working mechanism of these devices and which physical and chemical processes govern not only their power conversion efficiency but also their long-term stability. The interfaces between the perovskite film and the charge transport layers are among the most important factors in determining both the PCE and stability of HPSCs. Herein, an overview is provided on the recent advances in the fundamental understanding of how these interfaces influence the performance of HPSCs. Firstly, it is discussed how the surface energy of the charge transport layer, the energy level alignment at the interfaces, the charge transport in interfacial layers, defects and mobile ions in the perovskite film, and interfacial layers or at the interfaces affect the charge recombination as well as hysteresis and light soaking phenomenon. Then it is discussed how the interfaces and interfacial materials influence the stability of HPSCs. At the same time, an overview is also provided on the various design strategies for the interfaces and the interfacial materials. At the end, the outlook for the development of highly efficient and stable HPSCs is provided.
AB - Organic-inorganic hybrid perovskite solar cells (HPSCs) have achieved an impressive power conversion efficiency (PCE) of 25.2% in 2019. At this stage, it is of paramount importance to understand in detail the working mechanism of these devices and which physical and chemical processes govern not only their power conversion efficiency but also their long-term stability. The interfaces between the perovskite film and the charge transport layers are among the most important factors in determining both the PCE and stability of HPSCs. Herein, an overview is provided on the recent advances in the fundamental understanding of how these interfaces influence the performance of HPSCs. Firstly, it is discussed how the surface energy of the charge transport layer, the energy level alignment at the interfaces, the charge transport in interfacial layers, defects and mobile ions in the perovskite film, and interfacial layers or at the interfaces affect the charge recombination as well as hysteresis and light soaking phenomenon. Then it is discussed how the interfaces and interfacial materials influence the stability of HPSCs. At the same time, an overview is also provided on the various design strategies for the interfaces and the interfacial materials. At the end, the outlook for the development of highly efficient and stable HPSCs is provided.
KW - charge recombination
KW - charge transport layer
KW - interface
KW - perovskite solar cells
KW - stability
KW - HOLE TRANSPORT MATERIALS
KW - CHARGE-CARRIER MOBILITIES
KW - METAL HALIDE PEROVSKITES
KW - HIGHLY EFFICIENT
KW - LOW-TEMPERATURE
KW - THIN-FILM
KW - CH3NH3PBI3 PEROVSKITE
KW - PERFORMANCE ENHANCEMENT
KW - ELECTRON EXTRACTION
KW - INDUCED DEGRADATION
U2 - 10.1002/admi.201901469
DO - 10.1002/admi.201901469
M3 - Review article
SN - 2196-7350
VL - 7
JO - Advanced Materials Interfaces
JF - Advanced Materials Interfaces
IS - 1
M1 - 1901469
ER -