GRECO kick-off in Madrid: advancing photovoltaics through “open science”

Participants from partner institutions at the GRECO kick off in Madrid on 25. June 2018.

Participants from partner institutions at the GRECO kick off in Madrid on 25. June 2018.

The Helmholtz-Zentrum Berlin (HZB) is one of ten international partners in the GRECO pilot project funded under the European Union framework programme Horizon 2020. They intend to jointly test OpenScience approaches for exchanging knowledge and research data in order to accelerate the development of innovative PV products worldwide. GRECO will receive three million euros in funding through 2021.

The kick-off meeting took place in Madrid end of June 2018. The Institute for Solar Energy at the Universidad Politécnica de Madrid (UPM) is coordinating the research project that will see industry organisations, companies, government, academia and scientific organisations working together.

HZB contributions: materials data base and videotutorials

Dr. Eva Unger and her Helmholtz Young Investigator Group at the HZB are participants in GRECO: “We are contributing our expertise in the field of perovskite absorber layers for tandem photovoltaics and intend to establish a materials database in which key parameters and data from various absorbers can be brought together and made available in an open manner”, explains the chemist. She is also planning a video tutorial on the measurement and characterisation of solar cells. “Characteristic current-voltage curves are often not informative enough for determining the efficiency of perovskite solar cells”, explains the PV expert. The video is intended to contribute to establishing uniform quality standards for measuring solar cells worldwide.

Transparency and innovative products

Through use of Open Science Tools such as Open Access, Open Data, Open Education, Open Notebooks, Open Software, and Open Peer Review, GRECO wants to create complete transparency and exchange in the conduct of research. “This will enable new scientific concepts to be quickly applied by third parties, accelerating progress”, commented coordinators Dr. Ana B. Cristóbal and Prof. Carlos del Cañizo of the Universidad Politécnica de Madrid.

Innovative products to be developed by GRECO include repair and recycling methods for solar modules, precise modelling of power yields over timescales of decades (ageing), solar-powered irrigation systems, innovative solar modules as well as PV heat pump systems for use in various areas of everyday life.

 

Scientific Partners: Universidad Politécnica de Madrid, Pompeu Fabra University, Universidad de Évora, Central Solar Energy Laboratory of the Bulgarian Academy of Sciences, Helmholtz-Zentrum Berlin, Reiner Lemoine Institute, and Universidade de São Paulo

Industrial partners: Insolight SA (Switzerland) and the Euro-Mediterrean Irrigators Association (Spain)

In addition, the project is receiving support from the region of Andalusia, Spain.

GRECO stands for Fostering a Next GeneRation of European Photovoltaic SoCiety through Open Science

arö

  • Copy link

You might also be interested in

  • HZB patent for semiconductor characterisation goes into serial production
    News
    10.10.2024
    HZB patent for semiconductor characterisation goes into serial production
    An HZB team has developed an innovative monochromator that is now being produced and marketed by a company. The device makes it possible to quickly and continuously measure the optoelectronic properties of semiconductor materials with high precision over a broad spectral range from the near infrared to the deep ultraviolet. Stray light is efficiently suppressed. This innovation is of interest for the development of new materials and can also be used to better control industrial processes.
  • Photovoltaic living lab reaches the 100 Megawatt-hour mark
    News
    27.09.2024
    Photovoltaic living lab reaches the 100 Megawatt-hour mark
    About three years ago, the living laboratory at HZB went into operation. Since then, the photovoltaic facade has been generating electricity from sunlight. On September 27, 2024, it reached the milestone of 100 megawatt-hours.

  • BESSY II: Heterostructures for Spintronics
    Science Highlight
    20.09.2024
    BESSY II: Heterostructures for Spintronics
    Spintronic devices work with spin textures caused by quantum-physical interactions. A Spanish-German collaboration has now studied graphene-cobalt-iridium heterostructures at BESSY II. The results show how two desired quantum-physical effects reinforce each other in these heterostructures. This could lead to new spintronic devices based on these materials.