SOLID-STATE LITHIUM METAL BATTERY WITH IN SITU HYBRID ELECTROLYTE

Climate, Energy & MobilityHORIZON-RIAID: 101069726
EC Contribution
€82,520
Consortium Size
23 orgs
Start Year
2022
Summary

As of 2025, new generations of Li batteries based on silicon/carbon (Gen. 4a) and Li metal (Gen. 4b) anode, where flammable liquid electrolyte is replaced by a non-flammable solid-one, will take over the current Li-ion device. However, only all-solid-state Gen. 4b Li batteries are expected to fulfil the needed cell gravimetric energy density specifications demanded by electromobility and stationary applications. Therefore, SEATBELT ambition is to generate a local EU industry that revolves around a cost-effective, robust all-solid-state Li battery comprising sustainable materials by 2026. SEATBELT intends to achieve the first technological milestone of developing a battery cell (TRL5) meeting the needs of Electric Vehicle (EV) and stationary industry. The low-cost SEATBELT cell is safe-by-design with sustainable and recyclable materials, reaching high energy densities (>380 Wh/kg) and long cyclability (>500 cycles) by 2026 in line with the 2030 EU targets. The cells are produced by low-cost solvent-free extrusion process comprising a combination of innovative materials: thin Li metal, hybrid electrolyte, a safe cathode active material without critical materials and thin Al current collector. The cell design being optimized by interface (operando and atomistic modelling) and process (machine learning) methodologies. In addition, new in situ imaging instrumentation will be developed to investigate safety properties and mechanical deformation to assess cell safety in real conditions. An innovative recycling cycle from materials to cell level will be also established. Thus, SEATBELT will be the start point of a first EU all-solid-state battery value chain, whose main players in RTD and Industry sectors are within the consortium. So, cells and modules will cycle using industrially relevant protocols dedicated to EV and stationary applications. SEATBELT consortium is composed of 14 beneficiary partners and 3 affiliated entities, and one associated partner, from 7 European countries with an overall budget of 7851448.50€.

Consortium (23)

Project Results (17)

Source: CORDIS, the EU research results database.

Publications (13)
Journal of Physics and Chemistry of Solids
Journal of Physics and Chemistry of Solids· 2026DOI
C. Rosa; A. Pesce; P. Lannelongue; M. Ravalli; J.M. López del Amo; P. López-Aranguren; E. Quartarone; C. Tealdi
Cation disorder and lithium conductivity in mechanochemically synthesized chloride solid electrolytes
Solid State Ionics· 2025DOI
Raül Artal, Henrik Lyder Andersen, Rafael Del Olmo, Irune Villaluenga, Isabel Sobrados, Virginia Diez-Gómez, Javier Gainza, María Teresa Fernández-Diaz, José Antonio Alonso, Ricardo Jimenez, Aina
evoxels: A differentiable physics framework for voxel-based microstructure simulations
Journal of Open Source Software· 2025DOI
Simon Daubner, Alexander E. Cohen, Benjamin Dörich, Samuel J. Cooper
Innovative Biobased Thermoplastic Binders for Sustainable Lithium-Ion Batteries
ACS Omega· 2025DOI
Daniela de Morais Zanata, Rafael Del Olmo, Mikel Larumbe, Marcela de Paula Ramos, Nery M Aguilar, Irune Villaluenga
Insights into the Compatibility and Interphases of Li<sub>6</sub>PS<sub>5</sub>Cl and Ga-Doped Li<sub>2</sub>ZrCl<sub>6</sub> Halide Electrolytes by Solid-State NMR
ACS Applied Energy Materials· 2025DOI
Pedram Ghorbanzade, Arianna Pesce, Kerman Gomez, Pedro López-Aranguren, Juan Miguel López Del Amo
Isosorbide bio-based gel polymer electrolyte: a sustainable material to design high-voltage lithium metal batteries
Materials Today Energy· 2025DOI
Rafael Del Olmo, Mattia F. Palermo, Federica Santino, Carlos Villacis-Segovia, Nery M. Aguilar, Daniela de Morais Zanata, Erlantz Lizundia, Javier Carrasco, Irune Villaluenga
Real‐Time Phase Monitoring of Solid‐State Electrolytes: A Glovebox‐Integrated In Situ Wide‐Angle X‐Ray Scattering
Energy Technology· 2025DOI
Poongodi Ayyanusamy, Karol Vegso, Erik Simon, Yuriy Halahovets, Didier Devaux, Ainara Aguadero, Irune Villaluenga, Raul Artal, Oier Pajuelo Corral, Peter Nadazdy, Muhammad Arslan Raza, Jan Hilhorst, T
The role of lithium metal electrode thickness on cell safety
Cell Reports Physical Science· 2025DOI
Jonas Neumann, Lukas Hellweg, Marlena Bela, Tobias Hering, Marian Stan, Martin Winter, Sascha Nowak, Markus Börner
Unveiling the crucial morphological effect of non-conducting polymer binders on inorganic-rich hybrid electrolytes
Journal of Materials Chemistry A· 2025DOI
Natalia Stankiewicz, Leon Focks, Mengyang Cui, Mercedes Fernandez, Evgenii Modin, Amaia Iturrospe, Oier Pajuelo-Corral, Erik Simon, Arantxa Arbe, Peter Siffalovic, Gillian R. Goward, Andrey Chuvilin,
<i>In Situ</i> Hybrid Solid-State Electrolytes for Lithium Battery Applications
ACS Applied Polymer Materials· 2024DOI
Natalia Stankiewicz; Miryam Criado-Gonzalez; Jorge L. Olmedo-Martínez; Eider Matxinandiarena; Pedro López-Aranguren; Francisco Bonilla; Grazia Accardo; Damien Saurel; Didier Devaux; Irune Villaluenga
Macromolecules
Macromolecules· 2024DOI
David Mecerreyes; Nerea Casado; Irune Villaluenga; Maria Forsyth
The importance of A-site cation chemistry in superionic halide solid electrolytes
Nature Communications· 2024DOI
Kit Barker, Sarah L. McKinney, Raül Artal, Ricardo Jiménez, Nuria Tapia-Ruiz, Stephen J. Skinner, Ainara Aguadero, Ieuan D. Seymour
Understanding and Engineering Interfacial Adhesion in Solid‐State Batteries with Metallic Anodes
ChemSusChem· 2023DOI
Ieuan D. Seymour, Edouard Quérel, Rowena H. Brugge, Federico M. Pesci, Ainara Aguadero
Deliverables (3)
Websites, patent fillings, videos etc.
Data sets, microdata, etc
Other Results (1)
Periodic Reporting for period 1 - SEATBELT (SOLID-STATE LITHIUM METAL BATTERY WITH IN SITU HYBRID ELECTROLYTE)