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 Energy storage; Novel graphite and laser-grown graphene/Si-SiOx anodes; Ni-rich and LMFP cathodes; separators; shear thickening electrolytes; fast charging; pilot lines; Gigafactory-scale; LIBs for e-mobility
 ==Project Coordinator==
-Professor Spyros Yannopoulos, Foundation for Research and Technology Hellas & University of Patras
+Professor Spyros Yannopoulos, Foundation for Research and Technology Hellas (FORTH), Patras, Greece, & Dept. of Chemistry, University of Patras, Greece
 ==Consortium Members==
-#Foundation for Research and Technology Hellas
+#Foundation for Research and Technology Hellas - FORTH. (RTO). Main contact: Spyros Yannopoulos.
-#Pleione Energy
+#Pleione Energy - PLE. (SME). Main contact: Antonis Vavouliotis.
-#Jan Evangelista Purkyne University in Usti nad Labem
+#Jan Evangelista Purkyne University in Usti nad Labem - UJEP. (RTO). Main contact: Jiri Orava.
-#University College Dublin
+#University College Dublin - UCD. (RTO). Main contact: Serena Cussen.
-#Fraunhofer Institute for Silicate Research
+#Fraunhofer Institute for Silicate Research - FRAUNHOFER. (RTO). Main contact: Michael Hofmann.
-#University of Würzburg
+#University of Würzburg - JMU. (RTO). Main contact: Guinevere Giffin.
-#IBG Česko
+#IBG Česko - IBG. (SME). Main contact: Petr Marecek.
-#nanoSPACE Technology
+#nanoSPACE Technology - NST. (INDUSTRY). Main contact: Jan Buk.
-#Keysight Technologies
+#Keysight Technologies - KEYS. (SME). Main contact: Nawfal Al-Zubaidi-R-Smith.
-#Verkor
+#Verkor - VER. (GIGAFACTORY). Main contact: Yannick Molmeret.
-#European Research and Project Office
+#European Research and Project Office - EURICE. (SME). Main contact: Samuel Hoefman.
 ==Website and important links==
 Website: {{Template:Viewer/Link|page=|url=https://www.inerrant-batteries.eu|label=www.inerrant-batteries.eu}}
-Cordis:
+Cordis: https://cordis.europa.eu/project/id/101147457
 EU-Call: HORIZON-CL5-2023-D2-02
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 - Novel sustainable recycling processes to improve the purity of recovered materials
 ==Results==
-Lorem Ipsum
+Expected results:
+- Develop an eco-friendly process for in-situ single-step and binder-free deposition of graphene/Si materials as LIB anodes.
+- Establish processes to supply pilot-scale quantities of high-quality cathode active materials
+- Develop a pilot-to-industrial-scale spinning-based method for the production of Gen 3 LIBs separators of controlled porosity and recyclability
+- Advance understanding on the particle interactions that leads to shear thickening in LIB lithium electrolytes.
+- Explore new chemistries for electrolyte formulations to boost LIB performance.
+- Develop novel recycling processes to obtain battery-standard purity of recovered materials
 ==Budget==
 433 848.75
@@ Line 7: / Line 7: @@
      "project_status": "Item:OSW55a9a9bda7b248759e48ae2e3ed6df1d",
      "funding_call": "",
-     "funder": "",
+     "funder": "Item:OSWeb01c7cad4aa4c95ad51724a17fe91a1",
      "funding": "",
-     "funding_name": "",
+     "funding_name": "Grant agreement ID: 101147457",
      "ou": [],
-     "project_manager": [],
+     "project_manager": [
+        "Item:OSW33a4a032e2fb4612a2cb7bc571d4c64e"
+    ],
      "member": [],
      "member_of": [],
@@ Line 19: / Line 21: @@
      "yearly_budget": [],
      "proposal": "",
-     "abstract": "",
+     "abstract": "INERRANT aims to drive genuine advancements for safe-and-sustainable-by-design materials, and eco-friendly processes, to ensure the  economical and widespread utilization of safer LIBs tailored for the expanding electromobility applications in our modern society. To  realize this, INERRANT is formulating a holistic approach to enhance safety performance, extend cyclability and operational lifespan,  and improve fast charging, all while maintaining cost-effectiveness, energy, and power density, and avoiding dependence on Critical Raw Materials. The pivotal S\u0026T challenges encompass: development of functional materials, design sustainable recycling processes and understanding of pertinent interfacial phenomena and degradation mechanisms. The project addresses current challenges for LIBs  components related to (i) novel (nano)materials combinations for anodes and cathodes; (ii) smart-functioning separators; (iii) stimuli responsive electrolyte formulations; (iv) novel sustainable recycling processes to improve the purity of recovered materials. Novel electrochemical characterization methods and operando spectroscopies, both at the materials and component level, will be utilized. This includes the establishment of a metrological framework for traceable calibrations and the integration of machine learning methodologies for swift and early LIB cell aging predictions. Adopting fabrication methods that are inherently scalable, built upon existing pilot lines and proven safety testing, will facilitate a swift progression to Gigafactory-relevant scales. INERRANT will present a compelling business case and clear exploitation strategy, rooted in the consortium’s strategic insight, guaranteeing effective technology commercialization. This approach will support the economical and eco-friendly production of LIB cells and systems, tailored for e-mobility applications. INERRANT comprises a consortium of 11 partners from the European Commission and one associated partner from the USA.",
      "uuid": "d115cd75-9121-48f9-b036-c632eae1b5f9",
      "label": [
@@ Line 29: / Line 31: @@
      "description": [
          {
-             "text": "An EU Horizon Europe research project and part of the Batterey2030+ initiative",
+             "text": "An EU Horizon Europe research project and part of the Battery2030+ initiative, aiming to optimise the key materials and processes establishing a credible method for producing safer Gen 3 LIBs.",
              "lang": "en"
          }

0000-0003-2505-7778

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