From Battery Knowledge Base
Item:OSWbabe60b577dc47b9abb1a6ffd2d5a96c /
jsondata
type | "Category:OSWb2d7e6a2eff94c82b7f1f2699d5b0ee3" |
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subjects | |
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project_type | "public" |
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project_status | "Item:OSW55a9a9bda7b248759e48ae2e3ed6df1d" |
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funding_call | "" |
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funder | "Item:OSWeb01c7cad4aa4c95ad51724a17fe91a1" |
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funding | "" |
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funding_name | "" |
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project_manager | |
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member | |
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member_of | |
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start_date | "2023-06-01" |
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end_date | "2026-05-31" |
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total_budget | 4996340 |
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yearly_budget | |
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proposal | "" |
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abstract | "Battery innovation is key in the evolution of new energy production and transport technologies. However, progress in the field is currently impeded by insufficient understanding of atomic-level processes occurring within the interfaces and interphases of batteries. The EU-funded OPINCHARGE project aims to develop a set of operando nanoanalytical techniques to understand such processes in unprecedented detail. The consortium, comprising 10 organisations from 7 countries, will pioneer different chemical and physical techniques. They will also integrate AI/machine learning to enhance data acquisition and analysis. Strong focus will be placed on data sharing – a critical aspect of the Battery Interface Genome – Materials Acceleration Platform (BIG-MAP)." |
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uuid | "babe60b5-77dc-47b9-abb1-a6ffd2d5a96c" |
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label | |
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description | text | "An EU Horizon Europe research project and part of the Battery2030+ initiative" |
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lang | "en" |
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name | "OPINCHARGE" |
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image | "File:OSWdc289d9ede1440579d741a12421b9fe6.png" |
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