Abstract:
In this work, we propose an easy-to-fabricate plasmonic cavity design to enhance luminescence from ba 2pbi 4 ruddlesden popper thin films, which otherwise suffer from a very low quantum yield due to strong exciton-phonon interactions in the lattice. We designed a nanoparticle on mirror plasmonic cavity using 3d-finite-difference time-domain simulations, with perovskite film sandwiched between the two metallic structures yielding a 7-fold local enhancement in photoluminescence for intralayer excitons emitting at 520 nm. The designed cavity also aids the detection of interlayer excitons at 540 nm, for which a huge pl enhancement of more than 1500 times is easily obtained. Graphical abstract: [figure not available: see fulltext.] © 2022, the author(s), under exclusive licence to the materials research society.