Multiscale Simulation Platform Linking Lithium Ion Battery Electrode Fabrication Process with Performance at the Cell Level

Insights into degradation mechanisms of commercial Li-ion batteries by using a multiscale modelling approach

Both, Svenja
Danner, Timo
Hein, Simon
Lindner, Adrian
Abdolhosseini, Saeed
Menesklou, Wolfgang
Krewer, Ulrike
Latz, Arnulf

January 2023

Li-ion batteries are widely used in consumer electronics due to their high energy density and curren...

Modeling the 4D discharge of lithium-ion batteries with a multiscale time-dependent deep learning framework

Marcato, Agnese
Santos, Javier
Liu, Chaoyue
Boccardo, Gianluca
Marchisio, Daniele
Franco, Alejandro

August 2023

International audienceThe lithium-ion battery (LIB) field is moving towards the direction of investi...

Towards High-Performance Li-Ion Batteries Via Optimized Three-Dimensional Micro-Lattice Electrode Architectures

Zhu, Yaqi
Li, Jie
Saleh, M. Sadeq
Pham, Hiep
Plateau, Tazdik Patwary
Panat, Rahul
Park, Jonghyun

November 2020

Optimized three-dimensional (3D) electrode architectures hold the promise of improving battery perfo...

Multiscale Simulation Platform Linking Lithium Ion Battery Electrode Fabrication Process with Performance at the Cell Level

Ngandjong, Alain Cabrel
Rucci, Alexis
Maiza, Mariem
Shukla, Garima
Vazquez-Arenas, Jorge
Franco, Alejandro A.

January 2017

International audienceA novel multiscale modeling platform is proposed to demonstrate the importance...

Multiscale Simulation Platform Linking Lithium Ion Battery Electrode Fabrication Process with Performance at the Cell Level

Alain C. Ngandjong (4630648)
Alexis Rucci (4630651)
Mariem Maiza (4630654)
Garima Shukla (4037222)
Jorge Vazquez-Arenas (1551019)
Alejandro A. Franco (1660096)

November 2017

A novel multiscale modeling platform is proposed to demonstrate the importance of particle assembly ...

Lithium ion battery electrodes predicted from manufacturing simulations: Assessing the impact of the carbon-binder spatial location on the electrochemical performance

Chouchane, Mehdi
Rucci, Alexis
Lombardo, Teo
Ngandjong, Alain Cabrel
Franco, Alejandro, A.

January 2019

International audienceWe report a novel computational simulation study of the performance of Lithium...

Electrochemical transport simulation of 3D lithium-ion battery electrode microstructures

Trembacki, Bradley Louis

March 2018

Lithium-ion batteries are commonly modeled using a volume-averaged formulation (porous electrode the...

Multiscale simulation process and application to additives in porous composite battery electrodes

Wieser, C.
Prill, T.
Schladitz, K.

January 2015

Structure-resolving simulation of porous materials in electrochemical cells such as fuel cells and l...

Influence of a Heterogeneous Distribution of the Carbon-Binder Domain on Electrode Performance

Prasad, Mrudula
Hein, Simon
Danner, Timo
Latz, Arnulf

March 2022

The conductive carbon and binder domain (CBD) is an essential component of Lithium-ion battery elect...

Deconvoluting the impacts of the active material skeleton and the inactive phase morphology on the performance of lithium ion battery electrodes

Chouchane, Mehdi
Franco, Alejandro A.

January 2022

International audienceIn order to extract the most capacity out of Li-ion battery (LIB) active mater...

The importance of passive materials in Li-Ion battery electrodes

Danner, Timo
Hein, Simon
Westhoff, Daniel
Prifling, Benedikt
Schmidt, Volker
Latz, Arnulf

December 2019

Li-Ion batteries are commonly used in portable electronic devices and state-of-the-art electric vehi...

Simulation-Based and Data-Driven Techniques for Quantifying the Influence of the Carbon Binder Domain on Electrochemical Properties of Li-Ion Batteries

Tobias Knorr
Simon Hein
Benedikt Prifling
Matthias Neumann
Timo Danner
Volker Schmidt
Arnulf Latz

October 2022

Most cathode materials for Li-ion batteries exhibit a low electronic conductivity. Therefore, a cons...

Modélisation du procédé de fabrication des batteries lithium-ion : impact de la mésostructure de l'électrode sur sa performance électrochimique

Chouchane, Mehdi

November 2021

This Ph.D. project is within the scope of the ERC-ARTISTIC Project, which aims to correlate the fabr...

Computationally efficient quasi-3D model of a secondary electrode particle for enhanced prediction capability of the porous electrode model

Zelič, Klemen
Katrašnik, Tomaž

April 2022

Models of Li-ion batteries addressing a particular scale—from atomistic to continuum—have reached a ...

Insights into degradation mechanisms of commercial Li-ion batteries by using a multiscale modelling approach

Both, Svenja
Danner, Timo
Hein, Simon
Lindner, Adrian
Abdolhosseini, Saeed
Menesklou, Wolfgang
Krewer, Ulrike
Latz, Arnulf

January 2023

Li-ion batteries are widely used in consumer electronics due to their high energy density and curren...

Modeling the 4D discharge of lithium-ion batteries with a multiscale time-dependent deep learning framework

Marcato, Agnese
Santos, Javier
Liu, Chaoyue
Boccardo, Gianluca
Marchisio, Daniele
Franco, Alejandro

August 2023

International audienceThe lithium-ion battery (LIB) field is moving towards the direction of investi...

Towards High-Performance Li-Ion Batteries Via Optimized Three-Dimensional Micro-Lattice Electrode Architectures

Zhu, Yaqi
Li, Jie
Saleh, M. Sadeq
Pham, Hiep
Plateau, Tazdik Patwary
Panat, Rahul
Park, Jonghyun

November 2020

Optimized three-dimensional (3D) electrode architectures hold the promise of improving battery perfo...

Multiscale Simulation Platform Linking Lithium Ion Battery Electrode Fabrication Process with Performance at the Cell Level

Ngandjong, Alain Cabrel
Rucci, Alexis
Maiza, Mariem
Shukla, Garima
Vazquez-Arenas, Jorge
Franco, Alejandro A.

January 2017

International audienceA novel multiscale modeling platform is proposed to demonstrate the importance...

Multiscale Simulation Platform Linking Lithium Ion Battery Electrode Fabrication Process with Performance at the Cell Level

Alain C. Ngandjong (4630648)
Alexis Rucci (4630651)
Mariem Maiza (4630654)
Garima Shukla (4037222)
Jorge Vazquez-Arenas (1551019)
Alejandro A. Franco (1660096)

November 2017

A novel multiscale modeling platform is proposed to demonstrate the importance of particle assembly ...

Lithium ion battery electrodes predicted from manufacturing simulations: Assessing the impact of the carbon-binder spatial location on the electrochemical performance

Chouchane, Mehdi
Rucci, Alexis
Lombardo, Teo
Ngandjong, Alain Cabrel
Franco, Alejandro, A.

January 2019

International audienceWe report a novel computational simulation study of the performance of Lithium...

Electrochemical transport simulation of 3D lithium-ion battery electrode microstructures

Trembacki, Bradley Louis

March 2018

Lithium-ion batteries are commonly modeled using a volume-averaged formulation (porous electrode the...

Multiscale simulation process and application to additives in porous composite battery electrodes

Wieser, C.
Prill, T.
Schladitz, K.

January 2015

Structure-resolving simulation of porous materials in electrochemical cells such as fuel cells and l...

Influence of a Heterogeneous Distribution of the Carbon-Binder Domain on Electrode Performance

Prasad, Mrudula
Hein, Simon
Danner, Timo
Latz, Arnulf

March 2022

The conductive carbon and binder domain (CBD) is an essential component of Lithium-ion battery elect...

Deconvoluting the impacts of the active material skeleton and the inactive phase morphology on the performance of lithium ion battery electrodes

Chouchane, Mehdi
Franco, Alejandro A.

January 2022

International audienceIn order to extract the most capacity out of Li-ion battery (LIB) active mater...

The importance of passive materials in Li-Ion battery electrodes

Danner, Timo
Hein, Simon
Westhoff, Daniel
Prifling, Benedikt
Schmidt, Volker
Latz, Arnulf

December 2019

Li-Ion batteries are commonly used in portable electronic devices and state-of-the-art electric vehi...

Simulation-Based and Data-Driven Techniques for Quantifying the Influence of the Carbon Binder Domain on Electrochemical Properties of Li-Ion Batteries

Tobias Knorr
Simon Hein
Benedikt Prifling
Matthias Neumann
Timo Danner
Volker Schmidt
Arnulf Latz

October 2022

Most cathode materials for Li-ion batteries exhibit a low electronic conductivity. Therefore, a cons...

Modélisation du procédé de fabrication des batteries lithium-ion : impact de la mésostructure de l'électrode sur sa performance électrochimique

Chouchane, Mehdi

November 2021

This Ph.D. project is within the scope of the ERC-ARTISTIC Project, which aims to correlate the fabr...

Computationally efficient quasi-3D model of a secondary electrode particle for enhanced prediction capability of the porous electrode model

Zelič, Klemen
Katrašnik, Tomaž

April 2022

Models of Li-ion batteries addressing a particular scale—from atomistic to continuum—have reached a ...

Insights into degradation mechanisms of commercial Li-ion batteries by using a multiscale modelling approach

Both, Svenja
Danner, Timo
Hein, Simon
Lindner, Adrian
Abdolhosseini, Saeed
Menesklou, Wolfgang
Krewer, Ulrike
Latz, Arnulf

January 2023

Li-ion batteries are widely used in consumer electronics due to their high energy density and curren...

Modeling the 4D discharge of lithium-ion batteries with a multiscale time-dependent deep learning framework

Marcato, Agnese
Santos, Javier
Liu, Chaoyue
Boccardo, Gianluca
Marchisio, Daniele
Franco, Alejandro

August 2023

International audienceThe lithium-ion battery (LIB) field is moving towards the direction of investi...

Towards High-Performance Li-Ion Batteries Via Optimized Three-Dimensional Micro-Lattice Electrode Architectures

Zhu, Yaqi
Li, Jie
Saleh, M. Sadeq
Pham, Hiep
Plateau, Tazdik Patwary
Panat, Rahul
Park, Jonghyun

November 2020

Optimized three-dimensional (3D) electrode architectures hold the promise of improving battery perfo...

Multiscale Simulation Platform Linking Lithium Ion Battery Electrode Fabrication Process with Performance at the Cell Level

Abstract

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Multiscale Simulation Platform Linking Lithium Ion Battery Electrode Fabrication Process with Performance at the Cell Level

Abstract

Extracted data

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