Piloting novel cost-competitive bifacial IBC technology for vertical integrated European GW scale PV production value chain

Informazioni relative al progetto

IBC4EU

ID dell’accordo di sovvenzione: 101084259

DOI

10.3030/101084259

Progetto chiuso

Data della firma CE 21 Ottobre 2022

Data di avvio 1 Novembre 2022

Data di completamento 30 Aprile 2026

Finanziato da

Climate, Energy and Mobility

Costo totale

€ 16 654 798,85

Contributo UE

€ 13 490 668,75

13 490 668,75

3 164 130,10

Coordinato da

INTERNATIONAL SOLAR ENERGY RESEARCHCENTER KONSTANZ ISC EV
Germany

CORDIS fornisce collegamenti ai risultati finali pubblici e alle pubblicazioni dei progetti ORIZZONTE.

I link ai risultati e alle pubblicazioni dei progetti del 7° PQ, così come i link ad alcuni tipi di risultati specifici come dataset e software, sono recuperati dinamicamente da .OpenAIRE .

Risultati finali

Record IBC module with >23% full area efficiency

The deliverable is a demonstrator module with >23% full area efficiency comprising the most potent technologies (IBC cell type, metallization and interconnection method), materials (encapsulation, frame) and the best module layout resulting from T4.1 and T4.2. The demonstrator will be assembled at the WP4 partner site that is equipped with the chosen interconnection technology. The assembly method will be in line to be transferable to one of the pilot lines as defined in T4.3. Indicator: module demonstrator with efficiency >23%. T4.1

Market status report including benchmark with competing technologies

Deliverable will provide assessment of the markets for IBC based products end-use applications, benchmarking a Life Cycle Costing (LCC) and competitiveness, based on relevant techno-economic and regulatory constraints. Indicator: identified target end-use applications with ranking for high efficiency IBC products. T.7.3

Digital Twin specification

The deliverable consists of a (Indicator) specification (developed in T5.4) of a Digital Twin of PV modules suitable for circular economy. The Digital Twin will contain data elements for all data relevant for reuse and recycling. The Digital Twin will be specified as a submodel of the Asset Administration Shell.

Report on dissemination & communication activities

This report includes dissemination & communication activities on website updates, publications and scientific articles, event participations, newsletters, press releases and social media activities.Report will be updated on months 18, 24 and 36.

Overview of outdoor testing results

Deliverable will provide evaluation (Indicator) of outdoor testing results at IMEC, KALYON (Kapynar) and FUTURA (Piacenza) and comparable analysis with already market available and installed on sites latest generation bifacial PV systems. T4.4

Definition of project’s visual identity

The document will define the main ways and means of visualizing the project. Visual Identity includes (Indicator) logo, templates such as power point presentations, deliverable and reports, list with colour identifications, etc. T7.1

Report on Ga wafer quality matching POLO IBC requirements with carrier lifetime of > 1 ms at 1 Ohm*cm and > 5 ms at > 5 Ohm*cm. Phos-doped wafers with 3 – 20 Ohm*cm exhibit carrier lifetime > 2 ms.

Deliverable will present characterization results for silicon crystals of different resistivity ranges Czochralski-grown by the project partners NORSUN and KALYON, with dopant gallium for the p-type silicon and phosphorus for n-type silicon. Indicator: wafer quality matching POLO IBC requirements as stated in Del title. T2.2

Report on squaring along (110) orientation assessment for manufacturability

Deliverable will present modified by CEA squaring process and its adaptation to NORSUN and KALYON squaring/wafering systems with M6-compliant bricks (e.g. via complementary crystallographic-orientation analyses and additional shaping steps). Indicator: squaring process demonstration on M6-compliant bricks T2.1

Environmental, cost and social evaluation

This deliverable will contain (Indicator) the results of the environmental evaluation (T6.2), together with results of the cost evaluation (T6.3) and the social evaluation (T6.4) for the PV solutions to be developed in the project. The environmental evaluation will be based upon LCA calculations using the commercial LCA software package Simapro with the integrated Ecoinvent database. The cost calculations (GW-scale production) will determine the TCO of the individual parts of the value chain, as well as the LCOE of PV modules manufactured using a combination of all steps. The social life cycle assessment will permit to assess the social impacts (e.g., human rights, working conditions, governance, and socio-economic consequences) of IBC4EU products, for various groups of stakeholders (workers, local communities, society, consumers, and value chain actors). T6.2-T6.4

Pubblicazioni

Process optimization for edge passivation and high efficiency shingle heterojunction cells compatible with industry

Autori: Mickaël ALBARIC, Benoit MARTEL, Samuel HARRISON, Saliha EDOUARD
Pubblicato in: Proceedings of the 40th European Photovoltaic Solar Energy Conference and Exhibition (EU PVSEC 2023), Numero 2023, 2023, ISBN 3-936338-88-4
Editore: WIP GmbH & Co Planungs-KG

IBC Technology Targeting Fast and Effective Silver Reduction Applying Advanced Screen Printing

Autori: Radovan Kopecek, Florian Buchholz, Valentin D. Mihailetchi, Joris Libal, Ning Chen, Haifeng Chu, Christoph Peter, Dominik Rudolph, Thomas Buck, Tudor Timofte, Andreas Halm, Yonggang Guo, Xiaoyong Qu, Xiang Wu, Jiaqing Gao, Peng Dong.
Pubblicato in: IEEE Journal of Photovoltaics, Numero 25 December 2023, 2023, ISBN 3-936338-88-4
Editore: IEEE
DOI: 10.1109/PVSC48320.2023.10359697

OPTIMIZED GA-DOPED CZ WAFERS FOR POLO IBC SOLAR CELLS WITH HIGH EFFICIENCY AND MINIMAL LETID DEGRADATION

Autori: Thorsten Dullweber, Verena Mertens, Michael Winter, Sabrina Schimanke, M. Ripke, Silke Dorn, Yevgeniya Larionova, Gerrit Lange, Karsten Bothe, Jan Schmidt, Rolf Brendel, Arne K. Dahle, Özlem Coskun, Nesrin Töre Sen
Pubblicato in: Proceedings of the 41st European PVSEC, 2024, ISBN 3-936338-90-6
Editore: WIP – Renewable Energies
DOI: 10.4229/EUPVSEC2024/1AO.6.6

Process and design freedom enabled by back-contact solar cells minimizing the inactive module area

Autori: Andreas Halm, Daniel Tune, Karl Wienands, Tudor Timofte, Tobias Messmer
Pubblicato in: Proceedings of the EU PVSEC 2025, 2025, ISBN 3-936338-93-0
Editore: WIP Renewable Energies
DOI: 10.4229/EUPVSEC2025/3CO.11.2

IBC4EU: European back contact technology

Autori: F. Buchholz, D. Tune, T. Meßmer, J. Linke, M. Prasad, V. D. Mihailetchi, J. Ulbikas, A. Dahle, M. Meereboer, F. Fabris, E. Eikelboom, T. Borgers, R. Van Dyck, F. Duerinckx, H. S. Radhakrishnan, T. Bejat, S. Harrison, A. Binani, N. Guillevin, J. Kroon, Y.
Pubblicato in: Proceedings of the EU PVSEC 2025, 2025, ISBN 3-936338-93-0
Editore: WIP Renewable Energies

IBC4EU Business Model Optimization for European Solar PV: a study on costs and commercial strategies

Autori: Ian Kenchington, Philippe Macé, Gaëtan Masson, Joris Libal
Pubblicato in: Proceedings of the EU PVSEC 2025, 2025, ISBN 3-936338-93-0
Editore: WIP Renewable energies

Overcoming process related limitations in the context of the back contacted polyZEBRA solar cell technology

Autori: Jonathan Linke, Lazhar Rachdi, Sebastian Veerman, Jan Hoß, Jan Lossen, Lejo Joseph Koduvelikulathu, Florian Buchholz
Pubblicato in: Proceedings of the EU PVSEC 2025, 2025, ISBN 3-936338-93-0
Editore: WIP Renewable Energies
DOI: 10.4229/EUPVSEC2025/1CV.2.91

>24% Efficient Tunnel Back Contacted polyZEBRA Solar Cells

Autori: Jonathan Linke, Christoph Peter, Jan Hoß, Saman Sharbaf Kalaghichi, Valentin Mihailetchi, Jan Lossen, Florian Buchholz
Pubblicato in: 41st European Photovoltaic Solar Energy Conference and Exhibition, Numero 2024, ISBN 3-936338-90-6
Editore: WIP – Renewable Energies
DOI: 10.4229/EUPVSEC2024/1AO.6.5

IBC4EU: First Results of Industrialization of Low Cost, High Efficiency IBC Technology

Autori: Florian Buchholz, Daniel Tune, Tobias Messmer, Jonathan Linke, Manjunath Prasad, Juras Ulbikas, Arne Dahle, Martijn Meereboer, Francesca Fabris, Erik Eikelboom, Tom Borgers, Rik Van Dyk, Hariharsudan Sivaramakrishnan, Samuel Harrison, Josco Kester, Jan Kr
Pubblicato in: Proceedings of the 41st European PVSEC, 2024
Editore: WIP – Renewable Energies
DOI: 10.4229/EUPVSEC2024/1BO.4.3

Detection of Transformations in Encapsulants after Module Lamination Process

Autori: Vaidvilė Ulbikaitė, Jolanta Donėlienė, Piotr Dubravskij, Algirdas Galdikas, Jan Devenson, Viktoras Vaicikauskas, Viktorija Nargelienė, Arūnas Šetkus
Pubblicato in: Proceedings of the EU PVSEC 2025, 2025, ISBN 3-936338-93-0
Editore: WIP Renewable Energy
DOI: 10.4229/EUPVSEC2025/3AV.2.23

Progresse in development of POLYZEBRA IBC Solar Cells

Autori: Jonathan Linke, Florian Buchholz, Saman Sharbaf, Jan Hoß, Valentin Mihailetchi, Jan Lossen, Radovan Kopecek
Pubblicato in: Proceedings of the 40th European Photovoltaic Solar Energy Conference and Exhibition (EU PVSEC 2023), Numero 2023, 2023, ISBN 3-936338-88-4
Editore: WIP GmbH & Co Planungs-KG
DOI: 10.4229/EUPVSEC2023/1CV.3.3

Towards smart integration of Cu-plating for silver-free and edge passivated SHJ shingle modules

Autori: S.Harrison, V.Barth, B.Martel, M.Galiazzo, N.Frasson, A.Lachowicz
Pubblicato in: IEEE Journal of Photovoltaics, Numero 25 December 2023, 2023, ISBN 978-1-6654-6060-6
Editore: IEEE
DOI: 10.1109/PVSC48320.2023.10359779

24% Efficient TOPCon-based back contacted polyZEBRA solar cells

Autori: Jonathan Linke, Christoph Peter, Jan Hoß, Saman Sharbaf Kalaghichi, Valentin Mihailetchi, Jan Lossen, Florian Buchholz
Pubblicato in: EPJ Photovoltaics, Numero 16, 2025, ISSN 2105-0716
Editore: EDP Sciences
DOI: 10.1051/EPJPV/2024051

Plasma‐Enhanced Chemical‐Vapor‐Deposited SiOx(Ny)/n‐type Polysilicon‐on‐Oxide‐Passivating Contacts in Industrial Back‐Contact Si Solar Cells

Autori: Verena Mertens, Silke Dorn, Jonathan Langlois, Maximilian Stöhr, Yevgeniya Larionova, Welmoed Veurman, Rolf Brendel, Norbert Ambrosius, Aaron Vogt, Thomas Pernau, Helge Haverkamp, Thorsten Dullweber
Pubblicato in: Solar RRL, Numero 8, 2024, ISSN 2367-198X
Editore: Wiley
DOI: 10.1002/SOLR.202300919

How to Combine SHJ Cell-Edge Passivation and Module Reliability?

Autori: Samuel Harrison, Mickael Albaric, Vincent Barth, Benoit Martel, Marco Galiazzo, Nicola Frasson, Agata Lachowicz
Pubblicato in: SiliconPV Conference Proceedings, Numero 2, 2024, ISSN 2940-2123
Editore: TIB Open Publishing
DOI: 10.52825/SILICONPV.V2I.1292

Optimizing solar cell metallization by parallel dispensing

Autori: Sophie Pordan, Max Mosig, Florian Heitmann, Melanie Palme, Niklas Heuser, Maximilian Weil, Richard Steffens, Omar Zuaiter, Martin Kuchler, Maximilian Pospischil,
Pubblicato in: Solar Energy Materials and Solar Cells, Numero Volume 266, March 2024, 112685, 2024, ISSN 1879-3398
Editore: Elsevier B.V.
DOI: 10.1016/j.solmat.2023.112685

Environmental Stability of the Contact Resistivity of Interconnects Based on Electrically Conductive Adhesives and its Correlation to Photovoltaic Module Power Loss under Accelerated Aging Testing†

Autori: M. Ignacia Devoto Acevedo, Karl Wienands, Andreas Halm, Ralph Gottschalg, Daniel Tune
Pubblicato in: IEEJ Transactions on Electrical and Electronic Engineering, Numero 20, 2025, ISSN 1931-4973
Editore: Wiley
DOI: 10.1002/TEE.70048

È in corso la ricerca di dati su OpenAIRE...

Risultati finali

Pubblicazioni

Scarica Scarica il contenuto della pagina