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Autori principali: Sans-Planell, Oriol, Kardjilov, Nikolay, Manke, Ingo, Gitanjali, Gitanjali, Lange, Martin, Schlautmann, Eva, Tengattini, Alessandro, Hall, Stephen, Vestin, Philip, Ngulube, Qaphelani, Woracek, Robin, Zeier, Wolfgang G., Edström, Kristina
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2508.10400
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author Sans-Planell, Oriol
Kardjilov, Nikolay
Manke, Ingo
Gitanjali, Gitanjali
Lange, Martin
Schlautmann, Eva
Tengattini, Alessandro
Hall, Stephen
Vestin, Philip
Ngulube, Qaphelani
Woracek, Robin
Zeier, Wolfgang G.
Edström, Kristina
author_facet Sans-Planell, Oriol
Kardjilov, Nikolay
Manke, Ingo
Gitanjali, Gitanjali
Lange, Martin
Schlautmann, Eva
Tengattini, Alessandro
Hall, Stephen
Vestin, Philip
Ngulube, Qaphelani
Woracek, Robin
Zeier, Wolfgang G.
Edström, Kristina
contents The development of high-energy density solid-state batteries is critical for the achievement of carbon neutrality goals and the advancement of clean energy. Still, the fundamental understanding of lithium transport mechanisms and degradation processes remains limited. Current characterisation methods face significant challenges in studying these complex systems, particularly due to the difficulty of detecting lithium dynamics in three-dimensional battery architectures in operando conditions. Here we present the ANISSA (Advanced Neutron Imaging for Solid-State batteries in Action) project, an integrated experimental framework combining high-resolution neutron and X-ray imaging techniques to research coupled electro-chemo-mechanical processes in lithium-based energy storage systems.
format Preprint
id arxiv_https___arxiv_org_abs_2508_10400
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle ANISSA: Advanced Neutron Imaging for Solid-State batteries in Action
Sans-Planell, Oriol
Kardjilov, Nikolay
Manke, Ingo
Gitanjali, Gitanjali
Lange, Martin
Schlautmann, Eva
Tengattini, Alessandro
Hall, Stephen
Vestin, Philip
Ngulube, Qaphelani
Woracek, Robin
Zeier, Wolfgang G.
Edström, Kristina
Applied Physics
The development of high-energy density solid-state batteries is critical for the achievement of carbon neutrality goals and the advancement of clean energy. Still, the fundamental understanding of lithium transport mechanisms and degradation processes remains limited. Current characterisation methods face significant challenges in studying these complex systems, particularly due to the difficulty of detecting lithium dynamics in three-dimensional battery architectures in operando conditions. Here we present the ANISSA (Advanced Neutron Imaging for Solid-State batteries in Action) project, an integrated experimental framework combining high-resolution neutron and X-ray imaging techniques to research coupled electro-chemo-mechanical processes in lithium-based energy storage systems.
title ANISSA: Advanced Neutron Imaging for Solid-State batteries in Action
topic Applied Physics
url https://arxiv.org/abs/2508.10400