Salamander

Item:OSW1798fc130102418e9a8d67dea7f53ff3 /
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SALAMANDER [OSW1798fc130102418e9a8d67dea7f53ff3]
ID OSW1798fc130102418e9a8d67dea7f53ff3
UUID 1798fc13-0102-418e-9a8d-67dea7f53ff3
Label SALAMANDER
Machine compatible name Salamander
OSW9fa33f6f1dff44c892b6663d6b8f88d5.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 2023-05-01
End 2026-10-31
Budget 0.0e+0
OU Uppsala University, National Institute of Chemistry, Institute for Energy Technology, IFE Invest AS, University of Oslo, Basque Center for Macromolecular Design and Engineering, Polykey Polymers SL, Asociación Instituto Tecnológico de la Energía, Fraunhofer Institute for Solar Energy Systems ISE, Universidad Del Pais Vasco, University of Warwick, Univerzita Pardubice
Project manager Samson Yuxiu Lai
Member Samson Yuxiu Lai, Inger-Emma Nylund, Nienke Visser

Abstract

With the increasing reliance on Li-ion batteries (LIBs) to power our devices and facilitate the transition to renewable energy sources, the pressing problem of their limited lifespan and environmental impact looms large. LIBs degrade over time, and their production generates significant carbon emissions. In this context, the EU-funded SALAMANDER project offers a groundbreaking solution to these challenges. Specifically, it aims to embed advanced sensors and self-healing capabilities within LIBs, creating smart batteries that can autonomously detect and repair damage. This innovative approach not only promises longer-lasting, more reliable batteries but also aligns with the goal of a sustainable European battery value chain and a greener future.

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start_date"2023-05-01"
end_date"2026-10-31"
total_budget4304716
yearly_budget
Empty array
proposal""
abstract"With the increasing reliance on Li-ion batteries (LIBs) to power our devices and facilitate the transition to renewable energy sources, the pressing problem of their limited lifespan and environmental impact looms large. LIBs degrade over time, and their production generates significant carbon emissions. In this context, the EU-funded SALAMANDER project offers a groundbreaking solution to these challenges. Specifically, it aims to embed advanced sensors and self-healing capabilities within LIBs, creating smart batteries that can autonomously detect and repair damage. This innovative approach not only promises longer-lasting, more reliable batteries but also aligns with the goal of a sustainable European battery value chain and a greener future."
uuid"1798fc13-0102-418e-9a8d-67dea7f53ff3"
label
text"Salamander"
lang"en"
description
text"An EU Horizon Europe research project and part of the Battery2030+ initiative"
lang"en"
name"Salamander"