OPINCHARGE

Item:OSWbabe60b577dc47b9abb1a6ffd2d5a96c /
Revision as of 12:08, 3 September 2024 by Philipp Veit (0009-0000-0186-9670) (talk | contribs) (Added frame for the coordinator to fill in)
OPINCHARGE [OSWbabe60b577dc47b9abb1a6ffd2d5a96c]
ID OSWbabe60b577dc47b9abb1a6ffd2d5a96c
UUID babe60b5-77dc-47b9-abb1-a6ffd2d5a96c
Label OPINCHARGE
Machine compatible name OPINCHARGE
OSWdc289d9ede1440579d741a12421b9fe6.png
Ontology equivalents
Statements (outgoing)
Statements (incoming)
Keywords

Description

An EU Horizon Europe research project and part of the Battery2030+ initiative

Item
Type(s)/Category(s) Project
>
Project
Type Public
Grantor
Funding call
Grant ID
Start 2023-06-01
End 2026-05-31
Budget 0.0e+0
OU
Project manager
Member

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).

Topic of the project

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Keywords

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Project Coordinator

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Consortium Members

  1. Member 1
  2. Member 2
  3. Member X

Website and important links

Website:

Cordis:

EU-Call:

LinkedIn:

Twitter/X:

YouTube:

Other:

Goals of the project

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Results

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Budget

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Duration (and maybe Extension)

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Publications

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Patents

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ou
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project_manager
Empty array
member
Empty array
member_of
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start_date"2023-06-01"
end_date"2026-05-31"
total_budget4996340
yearly_budget
Empty array
proposal""
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)."
uuid"babe60b5-77dc-47b9-abb1-a6ffd2d5a96c"
label
text"OPINCHARGE"
lang"en"
description
text"An EU Horizon Europe research project and part of the Battery2030+ initiative"
lang"en"
name"OPINCHARGE"
image"File:OSWdc289d9ede1440579d741a12421b9fe6.png"