Würzburg chemists have succeeded in controlling the passage of halide ions by deliberately introducing defects into a ...

α-FAPbI 3, a promising solar cell material with a cubic perovskite structure that is metastable at room temperature, can be stabilized by introducing a pseudo-halide ion like thiocyanate (SCN –) into ...

The Würzburg model system consisting of two nanographene layers that can absorb and bind chloride ions (green) through a defect in the crystal lattice. Graphene is an extremely thin, flexible and ...

Light-driven chloride-pumping rhodopsins actively transport anions, including various halide ions, across cell membranes. Recent studies using time-resolved serial femtosecond crystallography (TR-SFX) ...

Batteries are an essential technology in modern society, powering smartphones and electric vehicles, yet they face ...

An international research team built the triple-junction device with dual bulk and interface passivation technique aimed at promoting halide homogeneity at the interface between the perovskite ...

Chemists from Würzburg have developed a novel model system for selective ion transport. The system, composed of a stable double layer with a nanographene-confined cavity, demonstrates high selectivity ...

Researchers at the University of Queensland have developed a 2D/3D tin halide perovskite (THP) solar cell with a certified efficiency of 16.65% and peak performance of 17.13%, maintaining stable ...

Graphene is an extremely thin, flexible and resistant material made of pure carbon. It forms layers that consist of virtually a single layer of carbon atoms. To make graphene as thick as a human hair, ...