PHOENIX

From Battery Knowledge Base
Item:OSWc16f2e51d6fa46fd9f69eb3d1b7744bd
PHOENIX [OSWc16f2e51d6fa46fd9f69eb3d1b7744bd]
ID OSWc16f2e51d6fa46fd9f69eb3d1b7744bd
UUID c16f2e51-d6fa-46fd-9f69-eb3d1b7744bd
Label PHOENIX
Machine compatible name PHOENIX
OSWa8a4bd0b55154951943227f580386f80.png
Ontology equivalents
Statements (outgoing)
Statements (incoming)
Keywords

Description

An EU Horizon Europe research project and part of the Batterey2030+ initiative

Item
Type(s)/Category(s) Project
>
Project
Type Public
Grantor
Funding call
Grant ID
Start 2023-05-01
End 2027-04-30
Budget 0.0e+0
OU
Project manager
Member

Abstract

PHOENIX aims to develop battery cells with integrated sensors (mechanical, enhanced impedance spectroscopy, temperature, gas, reference electrode) and self-healing functionalities (magnetically activated polymers, thermally activated polymers, metallic organic frameworks coated separator, core-shell NMC composites). Tailor made triggering devices to activate self-healing mechanisms will be developed, prototyped and demonstrated in Generation 3b and 4a Li-Ion batteries. A Battery Management System (BMS), capable of detecting defective operations and of triggering self-healing functionalities will be developed with in-line communication. The degradation detection and quality, reliability and life will be tested through dedicated profiles (fast charging, extreme temperatures, calendar life). The novel batteries’ manufacturing will be studied from a recycling and mass production point of view.

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:

Zenodo community:

https://zenodo.org/communities/phoenix_project

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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    abstract"PHOENIX aims to develop battery cells with integrated sensors (mechanical, enhanced impedance spectroscopy, temperature, gas, reference electrode) and self-healing functionalities (magnetically activated polymers, thermally activated polymers, metallic organic frameworks coated separator, core-shell NMC composites). Tailor made triggering devices to activate self-healing mechanisms will be developed, prototyped and demonstrated in Generation 3b and 4a Li-Ion batteries. A Battery Management System (BMS), capable of detecting defective operations and of triggering self-healing functionalities will be developed with in-line communication. The degradation detection and quality, reliability and life will be tested through dedicated profiles (fast charging, extreme temperatures, calendar life). The novel batteries’ manufacturing will be studied from a recycling and mass production point of view. "
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