Abbos Shodiev
YOU?
Author Swipe
View article: Machine learning for optimal electrode wettability in lithium ion batteries
Machine learning for optimal electrode wettability in lithium ion batteries Open
Electrode wetting is a critical step in the Lithium-Ion Battery manufacturing process. The injection of electrolyte in the electrodes’ porosity requires the application of pressure-vacuum pumping strategies without warranty that the full p…
View article: Gaining Insight into the Electrochemical Interface Dynamics in an Organic Redox Flow Battery with a Kinetic Monte Carlo Approach
Gaining Insight into the Electrochemical Interface Dynamics in an Organic Redox Flow Battery with a Kinetic Monte Carlo Approach Open
Finding low‐cost and nontoxic redox couples for organic redox flow batteries is challenging due to unrevealed reaction mechanisms and side reactions. In this study, a 3D kinetic Monte Carlo model to study the electrode‐anolyte interface of…
View article: Modeling of the manufacturing process of lithium-ion batteries : the link between electrolyte impregnation and electrochemical performance
Modeling of the manufacturing process of lithium-ion batteries : the link between electrolyte impregnation and electrochemical performance Open
The aim of the thesis was to create the models which describes electrolyte infiltration and characterize its performance. The electrochemical impedance spectroscopy model should be developed based on Newman model. The Lattice Boltzmann Met…
View article: Machine learning 3D-resolved prediction of electrolyte infiltration in battery porous electrodes
Machine learning 3D-resolved prediction of electrolyte infiltration in battery porous electrodes Open
Electrolyte infiltration is one of the critical steps of the manufacturing process of lithium ion batteries (LIB). We present here an innovative machine learning (ML) model, based on the multi-layers perceptron (MLP) approach, to fast and …
View article: Carbon-Binder Migration: A Three-Dimensional Evaporation Model for Lithium Ion Batteries
Carbon-Binder Migration: A Three-Dimensional Evaporation Model for Lithium Ion Batteries Open
Li-ion battery electrodes manufacturing is raising broad interest from both experimental and computational perspectives, due to its impact on the cost, mechanical and electrochemical properties of the final electrodes and cells. Among the …
View article: Carbon-Binder Migration: A Three-Dimensional Evaporation Model for Lithium Ion Batteries
Carbon-Binder Migration: A Three-Dimensional Evaporation Model for Lithium Ion Batteries Open
Li-ion battery electrodes manufacturing is raising broad interest from both experimental and computational perspectives, due to its impact on the cost, mechanical and electrochemical properties of the final electrodes and cells. Among the …
View article: Machine Learning 3D-Resolved Prediction of Electrolyte Infiltration in Battery Porous Electrodes
Machine Learning 3D-Resolved Prediction of Electrolyte Infiltration in Battery Porous Electrodes Open
Electrolyte infilitration is one of the critical steps of the manufacturing process of lithium ion batteries. Along with being the most time-consuming step in manufacturing, electrolyte wetting directly impacts the battery cell energy dens…
View article: Machine Learning 3D-Resolved Prediction of Electrolyte Infiltration in Battery Porous Electrodes
Machine Learning 3D-Resolved Prediction of Electrolyte Infiltration in Battery Porous Electrodes Open
Electrolyte infilitration is one of the critical steps of the manufacturing process of lithium ion batteries. Along with being the most time-consuming step in manufacturing, electrolyte wetting directly impacts the battery cell energy dens…
View article: Investigating electrode calendering and its impact on electrochemical performance by means of a new discrete element method model: Towards a digital twin of Li-Ion battery manufacturing
Investigating electrode calendering and its impact on electrochemical performance by means of a new discrete element method model: Towards a digital twin of Li-Ion battery manufacturing Open
International audience
View article: Investigating Electrode Calendering and its Impact on Electrochemical Performance by Means of a New Discrete Element Method Model: Towards a Digital Twin of Li-Ion Battery Manufacturing
Investigating Electrode Calendering and its Impact on Electrochemical Performance by Means of a New Discrete Element Method Model: Towards a Digital Twin of Li-Ion Battery Manufacturing Open
Lithium-ion battery (LIB) manufacturing optimization is crucial to reduce its CO2 fingerprint and cost, while improving their electrochemical performance. In this article, we present an experimentally validated calendering Discrete Element…
View article: Investigating Electrode Calendering and its Impact on Electrochemical Performance by Means of a New Discrete Element Method Model: Towards a Digital Twin of Li-Ion Battery Manufacturing
Investigating Electrode Calendering and its Impact on Electrochemical Performance by Means of a New Discrete Element Method Model: Towards a Digital Twin of Li-Ion Battery Manufacturing Open
Lithium-ion battery (LIB) manufacturing optimization is crucial to reduce its CO2 fingerprint and cost, while improving their electrochemical performance. In this article, we present an experimentally validated calendering Discrete Element…
View article: 4D-resolved physical model for Electrochemical Impedance Spectroscopy of Li(Ni1-x-yMnxCoy)O2-based cathodes in symmetric cells: Consequences in tortuosity calculations
4D-resolved physical model for Electrochemical Impedance Spectroscopy of Li(Ni1-x-yMnxCoy)O2-based cathodes in symmetric cells: Consequences in tortuosity calculations Open
International audience