Themed collection Electronic Properties and Characterisation of Perovskites

Guest editors Małgorzata Kot, Chittaranjan Das, Derya Baran and Michael Saliba introduce this Journal of Materials Chemistry C themed issue on the electronic properties and characterisation of perovskites.

Halide-perovskites-based resistive random-access memory (ReRAM) devices are emerging as a new class of revolutionary data storage devices because the switching material—halide perovskite—has received considerable attention in recent years owing to its unique and exotic electrical, optical, and structural properties.

Excitons in lead halide perovskites often go unnoticed as minority species, yet they account for almost all of light emission.

Introducing a modal system approach for the analytical perovskite thin-film trap physics evaluation. Our study confirms existing models for trap formation in MAPI, substantiating different defect states in the grain boundary and bulk regions.

We have studied the electronic structure of CH₃NH₃PbI₃ (MAPI) and CH₃NH₃SnI₃ (MASI) perovskite films by performing X-ray photoelectron spectroscopy (XPS) measurements on in situ grown perovskite films.

Overstoichiometric alloy-type material Cs_1.2PbI₂Br_1.2 delivered superior optoelectronic, morphological and photovoltaic characteristics in combination with the enhanced stability thus outperforming conventional CsPbI₂Br perovskite.

Fingerprints of dehydrogenation and atomic vacancies at the MAPbI₃/ZnO and MAPbI₃/GaN interfaces in their theoretical XANES.

Improving the stability of the hybrid perovskite solar cell is believed to be the main step toward large scale commercialization of this technology. Low controlled concentrations of fluorinated methylammonium cations added to the absorber could prevent its degradation due to water and ionic migration under applied bias due to of the reduction in the migration rate.

The effect of the small molecule PBD additive on the performance of the all inorganic polycrystalline CsPbBr₃-based PeLEDs was studied.

This work investigates the effect of energetically shallow and deep surface defects in MAPbI₃ films on the evolution of their photoluminescence properties upon exposure to ambient environment.

Doppler broadening-positron annihilation spectroscopy (DB-PAS) provides insights into the structural degradation of pristine and ALD Al₂O₃ capped CH₃NH₃PbI_3−xCl_x under ambient air exposure.

We investigate how far the hysteresis-free behavior of perovskite solar cells can be reproduced using particular pre-conditioning and measurement conditions.

A sodium citrate-modified-PEDOT:PSS hole transporting layer assists in the growth of the perovskite crystal, and favors the charge collection in the perovskite solar cells.

Organic hole-transporting materials (HTM) have shown excellent ability in achieving high efficiency perovskite solar cells.

The beneficial and detrimental effects of amido Pb impurities incorporated in methylammonium lead triiodide thin films are characterized by photoemission spectroscopy.

Simple aliphatic amine additives are shown to react with PbI₂ in perovskite inks to form amido Pb and alkylammonium species.