Optimizing the efficiency of perovskite solar cells by a sub-nanometer compact titanium oxide electron transport layer

摘要

An electron transport layer for electron collection and transport from the perovskite photoactive layer is indispensable in high-performance of mesoscopic perovskite solar cells. A well-organized electron transport layer can significantly improve the quality of the deposited perovskite film, enhance the transport of electrons and help the extraction of electron-hole pairs, but the optimized structural constitution remains elusive. In this work, we find that the optimal performance of perovskite solar cells can be achieved by introducing a sub-nanometer compact titanium dioxide layer to the mesoporous electron transport layers as an ultrathin compact layer is enough to enhance electron extraction and reduce carrier recombination. It is shown that an efficiency around 18% can be reliably achieved at the optimized structural constitution of a 230-nm mesoporous TiO2 layer as well as a compact TiO2 layer in a large equivalent thickness ranging from sub-nanometer to 30 nm. The mesoporous layer is also important as the power conversion efficiencies of all the fabricated perovskite solar cells are less than 11.8% without it. The results shed light on fabrication perovskite solar cells with thinnest compact layer with optimized efficiency.