Item:OSWbdaefbf2beb045c3912dcf136a804834: Difference between revisions

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Tag: Metadata slot edit
jsondata
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     ],
     ],
     "subjects": [],
     "subjects": [],
     "project_type": "house_project",
     "project_type": "public",
     "project_status": "Item:OSW55a9a9bda7b248759e48ae2e3ed6df1d",
     "project_status": "Item:OSW55a9a9bda7b248759e48ae2e3ed6df1d",
     "funding_call": "",
     "funding_call": "",
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     "project_manager": [],
     "project_manager": [],
     "member": [
     "member": [
         "Item:OSW72e733f317ef4cf9b8ca53e906c9acb9"
         "Item:OSW72e733f317ef4cf9b8ca53e906c9acb9",
        "Item:OSWdceb1a5ba88641968ec49109ce40dd9b"
     ],
     ],
     "member_of": [],
     "member_of": [],
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     "yearly_budget": [],
     "yearly_budget": [],
     "proposal": "",
     "proposal": "",
     "abstract": "",
     "abstract": "HYDRA aims to develop the next generation of commercially viable Li-ion battery cells based on sustainable materials and manufacturing processes. Within the roadmap for future battery development, these Li-ion battery cells are referred to as generation 3b. They aim to increase the energy density of the cells by developing new materials, while also reducing the critical raw materials (CRM) content by more than 85%. To achieve this goal, high-capacity silicon is blended together with graphite in the anode and cobalt-free lithium nickel manganese oxide (LNMO) and lithium iron phosphate (LFP) materials are used in the cathode.",
     "uuid": "bdaefbf2-beb0-45c3-912d-cf136a804834",
     "uuid": "bdaefbf2-beb0-45c3-912d-cf136a804834",
     "label": [
     "label": [
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     "description": [
     "description": [
         {
         {
             "text": "HYDRA aims to develop the next generation of commercially viable Li-ion battery cells based on sustainable materials and manufacturing processes. Within the roadmap for future battery development, these Li-ion battery cells are referred to as generation 3b. They aim to increase the energy density of the cells by developing new materials, while also reducing the critical raw materials (CRM) content by more than 85%. To achieve this goal, high-capacity silicon is blended together with graphite in the anode and cobalt-free lithium nickel manganese oxide (LNMO) and lithium iron phosphate (LFP) materials are used in the cathode.",
             "text": "An EU Horizon 2020 research project developing Generation 3b Li-ion batteries",
             "lang": "en"
             "lang": "en"
         }
         }
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