Perovskite solar cells: TEAM PV develops reproducibility and comparability
Perovskite materials for photovoltaic applications come in many shades, reflecting their huge variety of optical properties. This makes them uniquely fit to be combined with other materials in multijunction solar cells. © M. Setzpfandt/HZB
At HZB several labs are dedicated to perovskite research. Here different compositions of the material can be prepared. © M. Setzpfandt/HZB
The HZB runs a testing facility in order to observe different perovskite solar cells in real life conditions. © HZB
Ten teams at Helmholtz-Zentrum Berlin are building a long-term international alliance to converge practices and develop reproducibility and comparability in perovskite materials. The TEAM PV project is funded by the Federal Ministry of Education and Research (BMBF), Germany.
Solar energy is already the cheapest way to generate electricity in many parts of the world. But the world needs much higher efficiency solar modules to power demanding sectors such as electric vehicles, steel production, and AI. Likely the only option for increasing efficiency within the next decade is halide perovskites, a new class of materials that has been the subject of intensive research in the last decade. And while the silicon modules that dominate the market today are mainly produced in China, production facilities for halide perovskite cells could also be set up in Europe and the US, de-risking supply chains.
However, the road from the laboratory to mass production is long and there are still a number of hurdles to overcome. "The central goal is to increase the manufacturability, stability, and reliability of perovskite-based technologies. We urgently need common protocols to reliably compare diverse global developments in these novel materials and also to predict their service life," says Dr Siddhartha Garud, who drives the management of the TEAM PV project at HZB. Within this project, HZB aims to converge best practices in fabrication and analyses together with the National Renewable Energy Lab NREL, the University of Colorado Boulder and Humboldt-Universität zu Berlin.
One of the main questions is how the stability determined in a laboratory will behave under real conditions in a field. Another focus will be on machine learning methods to navigate this extremely vast class of materials and devices. The participating teams will work closely together to further develop the fabrication and analysis of perovskite thin films and full devices.
The BMBF is providing a total of €4 million in funding for the TEAM PV project for tools, personnel and researcher exchanges. "We want to establish a long-term partnership in photovoltaics with sustained researcher exchanges and also make it a starting point for further collaborations between the Helmholtz Association and National Labs and top Universities in the U.S.", Garud says.
- How carbonates influence CO2-to-fuel conversionResearchers from the Helmholtz Zentrum Berlin (HZB) and the Fritz Haber Institute of the Max Planck Society (FHI) have uncovered how carbonate molecules affect the conversion of CO2 into valuable fuels on gold electrocatalysts. Their findings reveal key molecular mechanisms in CO2 electrocatalysis and hydrogen evolution, pointing to new strategies for improving energy efficiency and reaction selectivity.
- Peat as a sustainable precursor for fuel cell catalyst materialsIron-nitrogen-carbon catalysts have the potential to replace the more expensive platinum catalysts currently used in fuel cells. This is shown by a study conducted by researchers from the Helmholtz-Zentrum Berlin (HZB), Physikalisch-Technische Bundesanstalt (PTB) and universities in Tartu and Tallinn, Estonia. At BESSY II, the team observed the formation of complex microstructures within various samples. They then analysed which structural parameters were particularly important for fostering the preferred electrochemical reactions. The raw material for such catalysts is well decomposed peat.
- Susanne Nies appointed to EU advisory group on Green DealDr. Susanne Nies heads the Green Deal Ukraina project at HZB, which aims to support the development of a sustainable energy system in Ukraine. The energy expert has now also been appointed to the European Commission's scientific advisory group to comment on regulatory burdens in connection with the net-zero target (DG GROW).