Organic Photovoltaics On Steel: ThyssenKrupp Steel Europe And Solliance Researching Applications For The New Generation Of Solar Cells
ThyssenKrupp Steel Europe and Solliance (ECN, imec, TNO, Holst Centre, TU/e, Forschungszentrum Jülich) are counting on a highly promising form of power generation: organic photovoltaics (OPV). OPVs are flexible solar cells made of light-active plastics and can be manufactured by cost-effective processes suitable for large-scale production. They may be less efficient than previous rigid solar cells based on silicon but they offer the potential to be made in large quantities at low cost and with reduced resource use. They therefore offer advantages when used on large surfaces, for example on roofs and facades of industrial buildings, where panels made of organic coated steel are typically used. To further develop this innovative technology, new processes are to be investigated to incorporate OPVs into flat steel products for use in the construction industry. This is the reason why ThyssenKrupp Steel Europe, one of the leading suppliers of coated flat steel products, is joining the Solliance research program on organic photovoltaics.
The growing trend in the construction industry is to reduce the amount of energy used by buildings over their lifetime. The aim is to create energy-neutral and energy self-sufficient buildings. One way is to integrate renewable energy generating technologies such as solar cells into the building envelope. In contrast to PV systems fitted to a building afterwards, building integrated photovoltaics (BIPV) completely merges the building and the power generating functions. The aim is to equip the steel strip from which the panels are made with the OPV functionality during production.
Integrating OPV into flat steel products brings clear benefits over previous thin film solar cells and could accelerate the trend towards market-ready products. OPV is aesthetically pleasing, design-friendly and will encourage designers and building owners to adopt low-energy buildings. Integrated OPV could be used on both roofs and facades, giving a much larger generating area and increasing the amount of eco-friendly electricity produced.
One step in the production of steel panels is coil coating, in which flat steel strip is coated with paint, film or a paint/film combination in a continuous process. “We are a leading supplier of coated steel products for construction and at the forefront of efforts to make the steel and construction industries more sustainable. Integrating OPV technology into our roll-to-roll coating processes could help us bring extra value to our construction customers and at the same time make a contribution to active climate protection,” says Dr. Bettina Werner, responsible for developing coatings for flat steel products in the Color division of ThyssenKrupp Steel Europe. “The shared research carried out at Solliance covers the entire value chain, bringing together multiple partners with different focuses to speed the development of a standard integrated PV solution.”
“We are proud to welcome ThyssenKrupp Steel Europe to the Solliance ecosystem. Having such a world-renowned steel manufacturer onboard highlights the strong market pull for OPVs and helps us focus our research on the needs of end users. This is a key step in our ongoing roadmap to develop high-efficiency, low-cost and highly stable OPV modules for a wide range of applications,” said Ronn Andriessen, OPV Program Manager at Solliance.
About ThyssenKrupp Steel Europe:
The Steel Europe business area is focused on the attractive and fast-growing market for premium flat carbon steel. Its capabilities range from intelligent material solutions and product-specific processing to comprehensive service. With its expertise in the development of materials, coatings and innovative processing technologies, Steel Europe serves a broad spectrum of steel-using industries, including the automotive, construction, appliance, energy and packaging sectors. With its Rolling and Coating Siegerland / Color division, ThyssenKrupp Steel Europe is participating in the Solliance research program on organic photovoltaics.
About Solliance:
Solliance is a partnership of R&D organizations working in photovoltaic solar energy (PV) in the ELAT region (Eindhoven-Leuven-Aachen). In order to strengthen the region’s position as a world player in PV, Solliance is creating the required synergy by consolidating and coordinating the activities of industry, research institutes and universities. Solliance partners are: ECN, imec, TNO, Holst Centre, TU/e, Forschungszentrum Jülich. Solliance is supported by the Dutch province of North Brabant, which has dedicated € 28M to Solliance. This will fund a large shared laboratory in Eindhoven with the newest equipment, complementing the partner’s labs which are also available to the other partners. In order to make optimal use of these lab facilities, they are open to valorization programs in joint research with industry. Solliance aims to collaborate with all main companies and institutes in the world. Solliance offers participation in its research and opens up its lab facilities to new entrants, either from industry or in research. On the basis of clear Intellectual Property (IP) agreements, each industrial partner can participate in this research effort, or alternatively, hire equipment and experts to further develop its own technology.
About imec
Imec performs world-leading research in nanoelectronics. Imec leverages its scientific knowledge with the innovative power of its global partnerships in ICT, healthcare and energy. Imec delivers industry-relevant technology solutions. In a unique high-tech environment, its international top talent is committed to providing the building blocks for a better life in a sustainable society. Imec is headquartered in Leuven, Belgium, and has offices in Belgium, the Netherlands, Taiwan, US, China, India and Japan. Its staff of close to 2,000 people includes more than 600 industrial residents and guest researchers. In 2011, imec's revenue (P&L) was about 300 million euro. For more information, visit www.imec.be.
Source: imec