CORDIS provides links to public deliverables and publications of HORIZON projects.
Links to deliverables and publications from FP7 projects, as well as links to some specific result types such as dataset and software, are dynamically retrieved from OpenAIRE .
Deliverables
The report will contain the design of the tools and sample for in-situ experiments, the protocols, and the first results. Contributing tasks: T3.4.
Plan for dissemination and exploitation incl. communication activities (opens in new window)D7.1 provides an initial plan for dissemination and exploitation incl. communication activities and training and will be periodically updated based on the project’s progress. It also constitutes an initial dissemination & communication kit for AddMorePower, as well as the launch of the project website and communication infrastructure in M03. Contributing tasks: T7.1, T7.2.
Virtual ECCI and dislocation density tensor (opens in new window)This deliverable describes the data transfer for virtual ECCI simulation (to WP2), the data formats and data needs defined and communicated as well as the first successful data transfer and utilization for modelling. Dissemination of documentation and distribution of the protocols and data structure (CHADA, GitHub). Contributing task(s): T5.3.
Documentation of domain-level ontologies - CHADAs & MODAs (opens in new window)The community standards CHADA and MODA describe the common understanding on describing, processing, characterizing and modelling of materials and of their properties for the applied methods in AddMorePower in a formalized way. Contributing tasks: T2.1, all tasks of WPs 3, 4, 5; T6.1, T6.2.
Cu metallization (opens in new window)As-processed and aged Cu films are characterized using TEM (visualization + ACOM) and EBSD techniques. This data is transferred to WP5 for the generation of microstructure-informed models. Furthermore Cu/semiconductor materials combinations are heated in-situ in the TEM to study the deformation behaviour. Contributing tasks: T4.3.
Project quality plan (opens in new window)The project quality plan (project handbook) constitutes a set of project templates and explains the project management, review, internal quality control process, and other organizational topics such as meeting organization. This handbook shall support all partners in their daily work. Contributing task: T1.1.
Imaging protocols for Lab-based Transmission X-ray Microscopy and nano-Computed Tomography (opens in new window)The protocols will be established for both, Mo and Cu sources. The documents will be distributed on relevant platforms (e.g. GitHub). Contributing tasks: T3.1.
Mean field model for vacancy diffusion (opens in new window)Mean Material parameters are established and linked to experiments. Numerical stability is tested under various initial, boundary and loading conditions (stress states, temperature states and vacancy concentrations). Dissemination of documentation and distribution of the model and its data structure (MODA, GitHub). Contributing task(s): T5.1
A customised data portal to store and share the processed data and metadata produced by AddMorePower’s materials characterizing and modelling methods. Contributing tasks: T2.2, all tasks of WPs 3, 4, 5.
The comprehensive Data Management Plan (DMP) outlines the type of collected data, produced research outputs, the compliance with the FAIR data principles, the way in which data will be stored and preserved throughout the lifespan of AddMorePower, ethical aspects and security issues. The DMP will be a living document which will be regularly updated. Contributing tasks: T2.1, all tasks of WPs 3, 4, 5; T6.1, T6.2, T7.1, T7.2, T7.3.
Simulation under varying, relevant thermomechanical boundary and loading conditions and impurity concentrations. Dissemination of documentation and distribution of the model and its data structure (MODA, damask.mpie.de). Contributing task(s): T5.2
Publications
Author(s):
C. Detlefs, N. A. Henningsson, B. Kanesalingam, A. A. W. Cret- ton, C. Corley-Wiciak, F. T. Frankus, D. Pal, S. Irvine, S. Borgi, H. F. Poulsen, C. Yildirim and L. E. Dresselhaus-Marais
Published in:
Acta Crystallographica Section A, 2025
Publisher:
ArXiv
Author(s):
Daniel, Geoffrey; Jason, Ludovic; Ouzia, Alexandre; Clausner, Andre; Jaeken, Catharina; Laukkanen, Anssi; Pascoe, John-Alan; Sebastiani, Marco; Bolelli, Giovanni; Simperler, Alexandra
Published in:
2025
Publisher:
Zenodo
DOI:
10.5281/ZENODO.14608274
Author(s):
Arka Mandal; Benoît Beausir; Julien Guyon; Vincent Taupin; Antoine Guitton
Published in:
Microscopy and Microanalysis, 2025, ISSN 1435-8115
Publisher:
Microscopy and Microanalysis, Volume 31, Issue 1, February 2025
DOI:
10.1093/MAM/OZAE124
Author(s):
Kristina Kutukova, Bartlomiej Lechowski, Joerg Grenzer, Peter Krueger, André Clausner, Ehrenfried Zschech
Published in:
Nanomaterials, Issue 14, 2024, ISSN 2079-4991
Publisher:
MDPI AG
DOI:
10.3390/NANO14050448
Author(s):
Bartlomiej Lechowski, Kristina Kutukova, Joerg Grenzer, Iuliana Panchenko, Peter Krueger, Andre Clausner, Ehrenfried Zschech
Published in:
Nanomaterials, Issue 14, 2024, ISSN 2079-4991
Publisher:
MDPI AG
DOI:
10.3390/NANO14020233
Author(s):
Lavallee Etienne; Guitton Antoine; Imrich Peter; Chisholm Claire
Published in:
BIO Web of Conferences, 2024, ISSN 2117-4458
Publisher:
BIO Web of Conferences
DOI:
10.1051/BIOCONF/202412907018
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