Covalent Triazine Framework Graphene-like Films Induce Growth of CsPbBr3Crystals for Efficient Inorganic Perovskite Solar Cells

Poor crystal quality is still the bottleneck for achieving high-performance photovoltaic devices. Here, we successfully fabricated exfoliated covalent triazine framework (ECTF) graphene-like films to induce the production of high-quality CsPbBr3films with monolayered large grains. Based on the coordination action between pyridinic N and Pb2+, the crystalline ECTF film can precisely induce the in situ reaction of PbBr2and CsBr to produce high-quality CsPbBr3@ECTF-1 films via the self-assembling stacking effect derived from the π–π bond force. The obtained CsPbBr3@ECTF-1 films have fewer grain boundaries, better charge transfer, and superior photoelectron and hole separation in comparison to the pristine CsPbBr3film. As a result, the champion efficiency of the CsPbBr3@ECTF-1 solar cell (9.49%) improved by 15% over the pure CsPbBr3ones with significant increases in Jsc, Voc, and FF. This encouraging result demonstrates that the ECTF graphene-like film template-induced strategy is an essential route to deposit monolayered large-grain perovskite films.