This new proceedings-perspective draws on presentations and discussions from the “Solid State Ionics” symposium at the 2025 E-MRS Spring meeting. The paper highlights the latest progress in the field, summarizing talks, connecting emerging ideas...
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The development of materials with improved performance and stability relies on the analysis of local compositional inhomogeneities, which may occur at various stages from synthesis to application. This type of analysis benefits from rapid methods...
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This work presents the implementation of ceramic stereolithography 3D printing to generate catalytic supports to investigate the influence of the structured reactor design on its conversion efficiency for CO2 methanation. Alumina monolithic...
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Perovskite oxides form a large family of materials with applications across various fields, owing to their structural and chemical flexibility. Efficient exploration of this extensive compositional space is now achievable through automated...
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Neuromorphic hardware facilitates rapid and energy-efficient training and operation of neural network models for artificial intelligence. However, existing analog in-memory computing devices, like memristors, continue to face significant...
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Adaptive biological systems dominate nature due to their flexibility. In contrast, human-fabricated electronic devices have limited flexibility and adaptability, as their functionality is mostly fixed during fabrication. Therefore, developing...
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Accelerated mapping of composition-structure-property relationships is a central goal in current materials research. Advanced approaches leverage machine learning (ML) models on existing databases, including data mining from the literature...
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In this work, a multimodal characterization approach has been used to study the phase and defect evolution upon cycling in aqueous batteries of a well-known yet not fully exploited cathode material, LiMn2O4. This is the first time that...
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In this study, electrolyte-supported solid oxide cells, fabricated using 3D printing and combined with ultrathin flat metallic interconnects, were successfully operated in both fuel cell (SOFC) and electrolysis (SOEC) modes. The three-cell...
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In this work, SLA 3D printing of 6Yb4ScSz has been developed to produce complex-shape electrolytes for SOC applications with better performance than counterparts based on state-of-the-art 8YSZ. Corrugated 6Yb4ScSZ cells presented enhanced values...
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April 3rd – 5th, 2024 Caixa Forum Palma de Mallorca The European projects HarveStore, EpiStore, HyP3D and 24/7 ZEN announce the 4th edition of the “The Power of Interfaces” workshop, which will take place on 3rd – 5th April 2024. Following...
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Our newly published paper introduces a groundbreaking approach to manufacture Large Area Solid Oxide Cells via 3D printing that has the potential to revolutionize power generation and energy storage. We proudly present the successful fabrication...
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