Stable Inorganic TAndem solar cell with superior device efficiency and increased durability

HORIZON.2.5HORIZON-RIAID: 101075626
EC Contribution
€49,875
Consortium Size
14 orgs
Summary

To face the grand challenge of transforming the energy system to include at least 42 % photovoltaic energy in 2050 (as forecasted in a scenario by IRENA), our proposed project, SITA, aims to explore innovative concepts for tandem solar cells based on two technologies with strong competence base in Europe: Silicon Heterojunction (SHJ) and high bandgap Cu(In,Ga)(Se,S)2 (CIGS). A novel tandem concept with a 2-terminal (2T) approach requiring no additional cables or electronics will be developed, enabled by recent and further development in wide gap CIGS devices leading to high efficiency (>18%). SITA will demonstrate the durability of the new modules under realistic outdoor conditions delivering the next generation of stable inorganic tandem solar modules with superior device efficiency (>30%). SITA’s technology will build on and increase the efficiency of SHJ modules by a factor of 1.5 with marginal increase in the use of the costliest raw materials. This in turn leads to a considerable reduction in area related system costs of up to 25 % per installed power and a corresponding reduction in the levelized cost of electricity (LCOE). Tandem-junction efficiencies have recently approached or even surpassed the single-junction Shockley-Queisser limit for prototype devices. SITA will address the remaining limitations in terms of stability, scaling and manufacturing costs, as well as environmental impact.

Consortium (14)

Project Results (21)

Source: CORDIS, the EU research results database.

Publications (12)
Zn <sub> 1− <i>x</i> </sub> Sn <sub> <i>x</i> </sub> O <sub> <i>y</i> </sub> Buffer Layer Deposited by Chemical Bath Deposition for Low and Wide Bandgap Cu(In, Ga)Se <sub>2</sub> Solar Cells
Advanced Energy and Sustainability Research· 2026DOI
Diego A. Garzón, Rafael Cerqueira, Cristiana F. Almeida Alves, Ana Margarida Moura, Jan Keller, Marika Edoff, Francis Leonard Deepak, Sascha Sadewasser
Effect of top cell absorber thickness and bifacial illumination on monolithic (Ag,Cu)(In,Ga)Se₂/Si tandem solar cells
Journal of Physics: Energy· 2025DOI
Julia Horstmann, Mario Hanser, Jana-Isabelle Polzin, Matthias Maiberg, Roland Scheer, et al.
Energy yield framework to simulate thin film CIGS solar cells and analyze limitations of the technology
Scientific Reports· 2025DOI
Santhosh Ramesh, Arttu Tuomiranta, Georgi H. Yordanov, Hussein Badran, Ali Hajjiah, et al.
Enhancing photocurrent collection in wide-gap ACIGS solar cells
Journal of Physics: Energy· 2025DOI
Matthias Diethelm, Ceren Mitmit, Carl Hägglund, Mirjana Dimitrievska, Wouter Vels, Sevan Gharabeiki, null Nisika, Jan Keller, Romain Carron
Impact of a Thin Sacrificial Mo Layer on the Formation of the Wide Band Gap ACIGSe Absorber/ITO Thin-Film Solar Cell Interface
ACS Applied Materials & Interfaces· 2025DOI
Angelika Demling, Rico Gutzler, Cristiana Filipa Almeida Alves, Regan G. Wilks, Roberto Félix, et al.
Rubidium Fluoride Absorber Treatment for Wide-Gap and Bifacial Ag(In,Ga)Se₂ Solar Cells
Solar RRL· 2025DOI
Jan Keller, Sapna Mudgal, Natalia Martin, Olivier Donzel-Gargand, Marika Edoff
The effect of the substrate on KF post deposition treatments of narrow gap Cu(In,Ga)Se₂ absorber layers
Journal of Physics: Energy· 2025DOI
Jessica de Wild, Guy Brammertz, Tim Oris, Tom Aernouts, Bart Vermang
Ultrathin AlOx Films for Back Contact Passivation in Bifacial Wide-Gap (Ag,Cu)(In,Ga)Se₂ Solar Cells
Solar RRL· 2025DOI
Jan Keller, Sapna Mudgal, Carl Hägglund, Klara Kiselman, Marika Edoff
Bifacial Wide-Gap (Ag,Cu)(In,Ga)Se₂ Solar Cell with 13.6% Efficiency Using In₂O₃:W as a Back Contact Material
Solar RRL· 2024DOI
Jan Keller, Lars Stolt, Olivier Donzel-Gargand, André Violas, Tomas Kubart, et al.
Effect of Ordered Vacancy Compounds on the Carrier Collection in Wide-Gap (Ag,Cu)(In,Ga)Se₂ Solar Cells
Solar RRL· 2024DOI
Jan Keller, Natalia Martin, Olivier Donzel-Gargand, Klara Kiselman, Uwe Zimmermann, et al.
Precise Alkali Supply during and after Growth for High-Performance Low Bandgap (Ag,Cu)InSe₂ Solar Cells
Solar RRL· 2024DOI
M. Krause, S. Moser, C. Mitmit, S. Nishiwaki, A. N. Tiwari, R. Carron
Silver Alloying in Highly Efficient CuGaSe2 Solar Cells with Different Buffer Layers
Solar RRL· 2023DOI
Jan Keller, Lars Stolt, Tobias Törndahl, Marika Edoff
Deliverables (8)
Other Results (1)
Periodic Reporting for period 1 - SITA (Stable Inorganic TAndem solar cell with superior device efficiency and increased durability)