Oxford PV collaborates with HZB to move perovskite solar cells closer to commercialisation

Oxford PV – The Perovskite Company's industrial site in Brandenburg an der Havel, Germany where the company is working rapidly to transfer its advanced perovskite on silicon tandem solar cell technology to an industrial scale process.

Oxford PV – The Perovskite Company's industrial site in Brandenburg an der Havel, Germany where the company is working rapidly to transfer its advanced perovskite on silicon tandem solar cell technology to an industrial scale process. © Oxford PV

Perovskite solar technology leader Oxford PV collaborates with leading German research centre to support the accelerated transfer of its technology into silicon cell manufacturing lines.

Oxford PVTM – The Perovskite CompanyTM, the leader in the field of perovskite solar cells, today announced its collaboration with Helmholtz-Zentrum Berlin (HZB), the leading German research centre focused on energy materials research.

Oxford PV has made considerable progress in transferring its advanced perovskite on silicon tandem solar cell technology from its laboratory in Oxford, UK to an industrial scale process at its site in Brandenburg an der Havel, Germany.

HZB’s extensive expertise in silicon heterojunctions solar cell technology, will support Oxford PV to further optimise its perovskite on silicon tandem solar cell technology, and demonstrate production scale up, to ensure ease of integration into large scale silicon solar cell and module production.

“Working with HZB to understand solar cell manufacturers’ silicon cells, will allow Oxford PV’s perovskite on silicon tandem formation to be fully optimised, to ensure the most efficient tandem solar cell, and the easy transfer of our technology into our commercial partner’s industrial processes, commented Chris Case, Chief Technology Officer, at Oxford PV,

“Oxford PV is now in the final stage of commercialising its perovskite photovoltaic solution, which has the potential to enable efficiency gains that will transform the economics of silicon photovoltaic technology globally.”

Rutger Schlatmann, Director of the PVcomB institute at HZB, said, “HZB believe that perovskites present a significant opportunity to the future of photovoltaics. For this reason, at our new innovation lab - HySPRINT, we have significantly increased our expertise and attracted some of the most promising young scientists in this field. HZB’s collaboration with Oxford PV is strategically important to the institute, as Oxford PV is the ideal partner to further develop our solar cell technology knowledge and help support the commercialisation of tandem silicon perovskite photovoltaic cells.”

More Information:

  • Oxford PV
  • PVcomB
  • HySPRINT-a Helmholtz Innovation Lab

Oxford PV/HZB


You might also be interested in

  • Best Innovator Award 2023 for Artem Musiienko
    News
    22.03.2024
    Best Innovator Award 2023 for Artem Musiienko
    Dr. Artem Musiienko has been awarded a special prize for his groundbreaking new method for characterising semiconductors. At the recent annual conference of the Marie Curie Alumni Association (MCAA) in Milan, Italy, he received the MCAA Award for the best innovation. Since 2023, Musiienko has been carrying out his research project with a postdoctoral fellowship from the Marie Sklodowska Curie Actions in Antonio Abate's department, Novel Materials and Interfaces for Photovoltaic Solar Cells (SE-AMIP).
  • Neutron experiment at BER II reveals new spin phase in quantum materials
    Science Highlight
    18.03.2024
    Neutron experiment at BER II reveals new spin phase in quantum materials
    New states of order can arise in quantum magnetic materials under magnetic fields. An international team has now gained new insights into these special states of matter through experiments at the Berlin neutron source BER II and its High-Field Magnet. BER II served science until the end of 2019 and has since been shut down. Results from data at BER II are still being published.

  • Where quantum computers can score
    Science Highlight
    15.03.2024
    Where quantum computers can score
    The travelling salesman problem is considered a prime example of a combinatorial optimisation problem. Now a Berlin team led by theoretical physicist Prof. Dr. Jens Eisert of Freie Universität Berlin and HZB has shown that a certain class of such problems can actually be solved better and much faster with quantum computers than with conventional methods.