Press Releases

Agrivoltaics enables the dual use of arable land: Photovoltaic modules, which are mounted on a structure, generate renewable electricity and underneath agricultural crops grow. The approach increases land efficiency and could mitigate conflicts over the use of arable land in the future. A new guideline provides up-to-date information on the technology, its potential and the current state of development. The aim is to provide farmers, municipalities and companies with practical advice on how to use agrivoltaics. The guidelines, published by the Fraunhofer Institute for Solar Energy Systems ISE, also gives suggestions on how to adapt the existing legal framework to include this new technology. Fraunhofer ISE was the first to comprehensively test the agrivoltaics technology in Germany. The publication comprises 56 pages, is free of charge and is now available online for download in German and English.

As the energy transition progresses, the expansion of the electricity grids is becoming increasingly important. More and more renewable generation plants as well as electrical storage systems are being connected to the grid. This gives power electronics a decisive role, because it is essential to connect these systems to the grid. However, in addition to the mere feed-in or feed-back of electrical energy, power electronics must also perform other grid-supporting tasks. In the "SiC-MSBat" project, researchers at the Fraunhofer Institute for Solar Energy Systems ISE, together with partners, have now developed and successfully commissioned a highly compact inverter for direct feeding into the medium-voltage grid.

Fraunhofer is developing a mobile medical care system. Mobile, distributed systems that provide medical care to the public can be a crucial addition to the existing healthcare infrastructure in crises and emergencies such as the current Corona pandemic. Six of the Fraunhofer-Gesellschaft’s institutes have joined forces under the lead management of the Fraunhofer IFF in Magdeburg and are developing an integrated system for mobile, distributed medical care in the Demo-medVer project. What makes it special is that all of the complete system’s components are modularized, are closely interconnected, and complement each other. A functional prototype is intended to be built by the end of next year.

Against the background of the global energy transition, the development of new technologies and characterization methods for thermochemical and electrochemical systems is becoming more significant. In context of the National Innovation Programme for Hydrogen and Fuel Cell, the Fraunhofer Institute for Solar Energy Systems ISE has expanded its R&D infrastructure and now operates one of the few facilities worldwide for High Temperature Near-Ambient Pressure X-ray Photoelectron Spectroscopy (HT-NAP-XPS). With this, the institute sets yet another milestone for the development of electrolysis and fuel cell systems as well as for hydrogen-based Power to X concepts.

Heat pumps will be the most important heating technology in the future. To accelerate market penetration, heat pump manufacturers are working on reducing the costs and finding sustainable refrigerants. The Fraunhofer Institute for Solar Energy Systems ISE is developing a compact and cost-efficient refrigeration circuit for heat pumps which use propane as refrigerant in the research project "LC150 Development of a Refrigerant-reduced Heat Pump Module with Propane", funded by the German Federal Ministry for Economic Affairs and Energy BMWi. A broad industrial consortium of European heat pump manufacturers is both financially supporting and technically accompanying the development in the project. The joint development platform is meant to open up considerable cost reduction potential to the participating companies and accelerate the industrial development of heat pumps for residential buildings.

The Fraunhofer Institute for Solar Energy Systems ISE has developed an alternative process for producing solar cell contacts. The laser transfer and firing (LTF) technique offers several advantages compared to conventional processes, particularly for specific solar cell surfaces. Together with industry partners in the joint project “C³PO”, the Fraunhofer researchers in Freiburg have realized a fully automated LTF process for the first time on a system from Pulsar Photonics GmbH. Now the process can be systematically tested and optimized with the goal of industrial implementation. f-cell conference in Stuttgart on September 29.

The Fraunhofer Institute for Solar Energy Systems ISE received the f-cell Award this year in the category "Research & Development". The prize distinguished their work on the development of flatbed screen printing as an industrially scalable manufacturing process for fuel cell electrodes. Minister of the Environment, Climate Protection and the Energy Sector for Baden-Wuerttemberg Franz Untersteller presented the award personally during the f-cell conference in Stuttgart on September 29.

Solar power is the most cost-effective form of energy worldwide, thanks to the many significant research contributions continuously made up to today. A decisive factor here is resource-saving production technology, which plays an important role along with increasing efficiency. HighLine Technology GmbH is the most recent Fraunhofer ISE spin-off company. The Freiburg-based start-up aims to commercialize a new process which was developed at the institute, whereby a contactless dispensing process is used to apply front metal contacts onto solar cells. This process not only saves resources but also increases the electricity yield and the potential for cost reductions. Applications also include production processes outside the field of photovoltaics.

In the field of organic photovoltaics, researchers are working hard to further increase the solar cell efficiency. New materials obtained from synthetic organic chemistry have enabled significant efficiency increases in recent years. Maintaining the efficiencies achieved in the laboratory on tiny solar cells is often a challenge when the cell area becomes larger. Now Fraunhofer ISE together with the Freiburg Materials Research Center FMF of the University of Freiburg has achieved a record efficiency of 14.9% for organic solar cells with an area of at least 1 cm². This marks an important step for this cost-effective technology on its way to application maturity.

The data platform energy-charts.de of the Fraunhofer Institute for Solar Energy Systems ISE is the most comprehensive database for power generation in Germany. Since 2014, the site gathers data on power generation from various neutral sources and makes it accessible to the public. The site has been further developed in the InGraVi project which was funded by the Deutsche Bundesstiftung Umwelt (DBU) and is now ready for relaunch. Changes were made so that the correlations between different data categories can be more quickly understood. DBU Secretary General Alexander Bonde remarks, "The energy transition is a generational task which must be implemented quickly. Digital platforms such as the Energy Charts help to objectify the discussion. What effect does CO2 pricing have? This will become more transparent with the relaunch: The website now correlates new data, such as electricity exchange prices and CO₂ prices, so that it becomes clear at what cost level coal-based electricity generation is no longer profitable for power plant operators.