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

Informations projet

SITA

N° de convention de subvention: 101075626

DOI

10.3030/101075626

Projet clôturé

Date de signature de la CE 22 Août 2022

Date de début 1 Septembre 2022

Date de fin 31 Août 2025

Financé au titre de

Climate, Energy and Mobility

Coût total

€ 4 987 480,00

Contribution de l’UE

€ 4 987 479,50

4 987 479,50

0,50

Coordonné par

UPPSALA UNIVERSITET
Sweden

CORDIS fournit des liens vers les livrables publics et les publications des projets HORIZON.

Les liens vers les livrables et les publications des projets du 7e PC, ainsi que les liens vers certains types de résultats spécifiques tels que les jeux de données et les logiciels, sont récupérés dynamiquement sur OpenAIRE .

Livrables

Paper submitted on Bonded 2T tandem prototype with efficiency >30%

Paper submitted on efficient Bonded 2T tandem prototype with efficiency>30%. The deliverable is a report based on a device, which is characterized to the efficiency which constitutes the final goal of the project.

Report/Paper submitted on new transparent cell with 17% eff, followed by journal publication

The achievement of a transparent cell with 17% eff, will be a stepping stone for further development up to at least 18 % efficiency for a transparent top cell. The results will be published in a high ranked journal with peer review with open access after review of results by the IP management committee.

Report/Paper submitted on new efficient, highly transparent cell with band gap above 1.5 eV, followed by journal publication

Report/Paper submitted on new efficient, highly transparent cell with bandgap above 1.5 eV, followed by journal publication in an open access journal with peer review. The 1.5 V is a stepping stone towards higher bandgaps. The results will first be reviewed by the IP Management Committee.

Paper submitted on efficient Circuitry 2T tandem prototype with efficiency >30%

Paper submitted on efficient Circuitry 2T tandem prototype with efficiency>30%. The deliverable is a report based on a device, which is characterized to the efficiency which constitutes the final goal of the project.

Paper submitted on new record cell with bandgap above 1.5 eV, ≥18% efficiency and 80% T (below the bandgap)

Paper submitted on new record cell with bandgap above 1.5 eV, ≥18%efficiency and 80% T (below the bandgap)

Updated Plan for Dissemination, Exploitation and Communication

Updated Plan for Dissemination, Exploitation and Communication. The deliverable for month 6 focusses mainly on early branding, dissemination of research of the different partners and establishing the project website. The Exploitation task is mainly dedicated to finding a procedure for further exploitation not on the exploitation itself.

Project Website

The SITA project website will present the project, with the aim to maximize the visibility of the project. The aim is to reach out and inform the society and demonstrate the contribution of EU funding to grand societal challenges. A SITA logotype will be part of the branding and website work.

Data management plan

Data management plan includes management of the DMP.OPIDoR, a tool or online creation of the DMP. The deliverable includes choice of suitable platform for storage of open data as well as procedures for curating of data.

Publications

Effect of Ordered Vacancy Compounds on the Carrier Collection in Wide-Gap (Ag,Cu)(In,Ga)Se₂ Solar Cells

Auteurs: Jan Keller, Natalia Martin, Olivier Donzel-Gargand, Klara Kiselman, Uwe Zimmermann, et al.
Publié dans: Solar RRL, 2024, ISSN 2367-198X
Éditeur: Wiley
DOI: 10.1002/SOLR.202301018

Impact of a Thin Sacrificial Mo Layer on the Formation of the Wide Band Gap ACIGSe Absorber/ITO Thin-Film Solar Cell Interface

Auteurs: Angelika Demling, Rico Gutzler, Cristiana Filipa Almeida Alves, Regan G. Wilks, Roberto Félix, et al.
Publié dans: ACS Applied Materials & Interfaces, Numéro 17/22, 2025, ISSN 1944-8244
Éditeur: American Chemical Society
DOI: 10.1021/ACSAMI.5C02315

Enhancing photocurrent collection in wide-gap ACIGS solar cells

Auteurs: Matthias Diethelm, Ceren Mitmit, Carl Hägglund, Mirjana Dimitrievska, Wouter Vels, Sevan Gharabeiki, null Nisika, Jan Keller, Romain Carron
Publié dans: Journal of Physics: Energy, Numéro 8, 2025, ISSN 2515-7655
Éditeur: IOP Publishing
DOI: 10.1088/2515-7655/AE13C1

Precise Alkali Supply during and after Growth for High-Performance Low Bandgap (Ag,Cu)InSe₂ Solar Cells

Auteurs: M. Krause, S. Moser, C. Mitmit, S. Nishiwaki, A. N. Tiwari, R. Carron
Publié dans: Solar RRL, Numéro 8 (Article 2400077), 2024, ISSN 2367-198X
Éditeur: Wiley
DOI: 10.1002/SOLR.202400077

Effect of top cell absorber thickness and bifacial illumination on monolithic (Ag,Cu)(In,Ga)Se₂/Si tandem solar cells

Auteurs: Julia Horstmann, Mario Hanser, Jana-Isabelle Polzin, Matthias Maiberg, Roland Scheer, et al.
Publié dans: Journal of Physics: Energy, Numéro 7(4):045004, 2025, ISSN 2515-7655
Éditeur: IOP Publishing
DOI: 10.1088/2515-7655/ADEAE5

The effect of the substrate on KF post deposition treatments of narrow gap Cu(In,Ga)Se₂ absorber layers

Auteurs: Jessica de Wild, Guy Brammertz, Tim Oris, Tom Aernouts, Bart Vermang
Publié dans: Journal of Physics: Energy, Numéro 7(4):045011, 2025, ISSN 2515-7655
Éditeur: IOP Publishing
DOI: 10.1088/2515-7655/ADEAE6

Energy yield framework to simulate thin film CIGS solar cells and analyze limitations of the technology

Auteurs: Santhosh Ramesh, Arttu Tuomiranta, Georgi H. Yordanov, Hussein Badran, Ali Hajjiah, et al.
Publié dans: Scientific Reports, Numéro 15, 2025, ISSN 2045-2322
Éditeur: Nature Research
DOI: 10.1038/S41598-024-78862-W

Zn 1− x Sn x O y Buffer Layer Deposited by Chemical Bath Deposition for Low and Wide Bandgap Cu(In, Ga)Se 2 Solar Cells

Auteurs: Diego A. Garzón, Rafael Cerqueira, Cristiana F. Almeida Alves, Ana Margarida Moura, Jan Keller, Marika Edoff, Francis Leonard Deepak, Sascha Sadewasser
Publié dans: Advanced Energy and Sustainability Research, Numéro 7, 2026, ISSN 2699-9412
Éditeur: Wiley
DOI: 10.1002/AESR.202500307

Bifacial Wide-Gap (Ag,Cu)(In,Ga)Se₂ Solar Cell with 13.6% Efficiency Using In₂O₃:W as a Back Contact Material

Auteurs: Jan Keller, Lars Stolt, Olivier Donzel-Gargand, André Violas, Tomas Kubart, et al.
Publié dans: Solar RRL, Numéro 8/15, 2024, ISSN 2367-198X
Éditeur: Wiley
DOI: 10.1002/SOLR.202400430

Ultrathin AlOx Films for Back Contact Passivation in Bifacial Wide-Gap (Ag,Cu)(In,Ga)Se₂ Solar Cells

Auteurs: Jan Keller, Sapna Mudgal, Carl Hägglund, Klara Kiselman, Marika Edoff
Publié dans: Solar RRL, Numéro 9/11, 2025, ISSN 2367-198X
Éditeur: Wiley
DOI: 10.1002/SOLR.202500101

Silver Alloying in Highly Efficient CuGaSe2 Solar Cells with Different Buffer Layers

Auteurs: Jan Keller, Lars Stolt, Tobias Törndahl, Marika Edoff
Publié dans: Solar RRL, Numéro 2300208, 2023, ISSN 2367-198X
Éditeur: Wiley
DOI: 10.1002/solr.202300208

Rubidium Fluoride Absorber Treatment for Wide-Gap and Bifacial Ag(In,Ga)Se₂ Solar Cells

Auteurs: Jan Keller, Sapna Mudgal, Natalia Martin, Olivier Donzel-Gargand, Marika Edoff
Publié dans: Solar RRL, Numéro Volume9, Numéro16, 2025, ISSN 2367-198X
Éditeur: Wiley
DOI: 10.1002/SOLR.202500423

Recherche de données OpenAIRE...

Livrables

Publications

Partager cette page Partager cette page sur les réseaux sociaux

Télécharger Télécharger le contenu de la page