Royal Society of Chemistry praises HZB team’s paper on hybrid perovskite structures
T-x phase diagram has been created for MAPb(I,Br)3 for the first time. It was revealed that the phase transition temperature of the iodine-rich mixed crystals drops as iodine content increases. © RSC Advances
For the 10th anniversary collection of its journal, the Royal Society of Chemistry (RSC) selected a paper published by a team from HZB. The paper from HZB is described as one of the most important contributions in the field of solar energy in recent years. The journal praised 23 selected papers that had been often cited or downloaded, and which offered a valuable advantage for further research.
The HZB paper focuses on the systematic characterisation of hybrid perovskites containing mixed halides (MAPb(I,Br)3). The samples of the mixed crystals were produced in powder form using a solvent-based synthesis method. The research team from HZB’s Department Structure and Dynamics of Energy Materials (SE-ASD) showed that the crystal structure of the mixed crystal compounds is temperature dependent. As the materials go through different phase transitions, they form either a tetragonal or a cubic perovskite structure depending on the temperature and chemical composition. Now, a comprehensive T-x phase diagram has been created for this solid solution series for the first time. It was revealed that the phase transition temperature of the iodine-rich mixed crystals drops as iodine content increases, which stabilises the cubic perovskite structure at room temperature.
For their temperature-dependent in-situ experiments, HZB’s team used the DIFFRACTION end station of the BESSY II beamline KMC-2. They additionally determined the band gap energy and studied the optoelectronic properties of these perovskite compounds (among other things using photoluminescence spectroscopy).
The results led to a fundamental structural characterisation of these mixed halide perovskite compounds. Although the study was based on powder-form materials, the insights gained on the temperature-dependent behaviour of these hybrid halide perovskites can be now be applied to thin-film materials like those used to create absorbers for thin-film solar cells.
The paper was authored by Frederike Lehmann as part of her doctoral thesis in the graduate school HyPerCell. Her thesis was supervised by Prof. Dr. Susan Schorr and Dr. Alexandra Franz from the HZB Department Structure and Dynamics of Energy Materials and by Prof. Dr. Andreas Taubert from Potsdam University. “The paper was an excellent team achievement, and we are delighted that the RSC chose to write about us,” says Susan Schorr.
Click here for the RSC Advances Anniversary Collection “Solar Energy
- Optical innovations for solar modules - which are the most promising?In 2023, photovoltaic systems generated more than 5% of the world’s electrical energy and the installed capacity doubles every two to three years. Optical technologies can further increase the efficiency of solar modules and open up new applications, such as coloured solar modules for facades. Now, 27 experts provide a comprehensive overview of the state of research and assess the most promising innovations. The report, which is also of interest to stakeholders in funding and science management, was coordinated by HZB scientists Prof. Christiane Becker and Dr. Klaus Jäger.
- Catalysis research with the X-ray microscope at BESSY IIContrary to what we learned at school, some catalysts do change during the reaction: for example, certain electrocatalysts can change their structure and composition during the reaction when an electric field is applied. The X-ray microscope TXM at BESSY II in Berlin is a unique tool for studying such changes in detail. The results help to develop innovative catalysts for a wide range of applications. One example was recently published in Nature Materials. It involved the synthesis of ammonia from waste nitrates.
- Samira Aden joins ETIP PV - The European Technology & Innovation Platform for Photovoltaics ESG Working GroupSamira Jama Aden, Architect Design Research, has joined the ETIP PV - The European Technology & Innovation Platform for Photovoltaics working group “Environmental, Social and Governance (ESG)”.