posted on 2018-04-23, 00:00authored byChen Wang, Ping Liu, Huanxin Ju, Quan Yuan, Dongwei Han, Yu Wang, Dong-Ying Zhou, Lai Feng
A simple alcohol-soluble
perylene derivative (i.e., tetramethylammonium salt of perylene-3,4,9,10-tetracarboxylic
acid; TMA-PTC) was prepared and applied as a cathode interlayer (CIL)
to modify the PC61BM/Ag interface in planar p–i–n
perovskite solar cells (PeSCs). As a result, the power conversion
efficiency (PCE) of the TMA-PTC-based PeSCs is ca. 30% higher than
that of the devices without CIL. It was revealed that the enhancement
in PCE might be attributed to the improved electron-transporting and
hole-blocking properties of the PC61BM/TMA-PTC/Ag interfaces.
Moreover, the TMA-PTC devices show remarkably higher stability than
those without CIL probably due to the suppressed corrosion of perovskite
on Ag cathode. Our findings thus demonstrate a multifunctional and
solution-processable CIL that may be a promising block for the fabrication
of low-cost, high-efficiency and stable planar p–i–n
PeSCs.