Physically Consistent Modeling of Lithium Iron Phosphate Electrodes

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doi:10.4233/uuid:33ebc5e0-8956-46fa-9ce5-d25cefa99006

Physically Consistent Modeling of Lithium Iron Phosphate Electrodes

From lattice properties to electrode microstructure

Doctoral Thesis (2026)

Author(s)

P. Ombrini (TU Delft - RST/Storage of Electrochemical Energy)

Contributor(s)

M. Wagemaker – Promotor (TU Delft - RST/Storage of Electrochemical Energy)

A. Vasileiadis – Copromotor (TU Delft - RST/Storage of Electrochemical Energy)

Modeling Battery Thermodynamics Simulations Electrodes Phase separation

DOI related publication

https://doi.org/10.4233/uuid:33ebc5e0-8956-46fa-9ce5-d25cefa99006 Final published version

To reference this document use

https://doi.org/10.4233/uuid:33ebc5e0-8956-46fa-9ce5-d25cefa99006

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Publication Year

2026

Language

English

Defense Date

17-04-2026

Awarding Institution

ISBN (print)

978-94-6534-321-1

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13

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Abstract

Decarbonizing energy usage is essential to sustain global development while avoiding the worst impacts of climate change. Energy storage plays a central role, enabling the integration of renewable sources and the decarbonization of transport. Among available technologies, Li-ion batteries are the fastest growing, offering high efficiency, reversibility, long cycle life, and rapidly decreasing costs. These features have made them ubiquitous, from grid stabilization to electric vehicles and residential storage.....

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