Add to ORKGNew experimental technology and theoretical approaches have advanced battery research across length scales ranging from the molecular to the macroscopic. Direct observations of nanoscale phenomena and atomistic simulations have enhanced the understanding of the fundamental electrochemical processes that occur in battery materials. This vast and ever-growing pool of microscopic data brings with it the challenge of isolating crucial performance-decisive physical parameters, an effort that often requires the consideration of intricate interactions across very different length scales and timescales. Effective physics-based battery modeling emphasizes the cross-scale perspective, with the aim of showing how nanoscale physicochemical phenomena af...
The electrochemical properties and performances of lithium-ion batteries are primarily governed by t...
The performance and degradation of lithium batteries strongly depends on electrochemical, mechanical...
A microscopic model of a lithium battery is developed, which accounts for lithium diffusion within p...
New experimental technology and theoretical approaches have advanced battery research across length ...
Computational modelling is a vital tool in the research of batteries and their component materials. ...
This review focuses on energy storage materials modeling, with particular emphasis on Li-ion batteri...
International audienceThis review focuses on the role of physical theory and computational electroch...
The behavior of battery cells is intrinsically multiscale, as the multiphysics phenomena involving d...
Establishing a link between atomistic processes and battery cell behavior is a major challenge for l...
Physics-based electrochemical battery models derived from porous electrode theory are a very powerfu...
Establishing a link between atomistic processes and battery cell behavior is a major challenge for l...
Li-ion battery technology has a great success and is widely used in various portable technologies an...
Establishing a link between atomistic processes and battery cell behavior is a major challenge for l...
The electrochemical properties and performances of lithium-ion batteries are primarily governed by t...
The performance and degradation of lithium batteries strongly depends on electrochemical, mechanical...
A microscopic model of a lithium battery is developed, which accounts for lithium diffusion within p...
New experimental technology and theoretical approaches have advanced battery research across length ...
Computational modelling is a vital tool in the research of batteries and their component materials. ...
This review focuses on energy storage materials modeling, with particular emphasis on Li-ion batteri...
International audienceThis review focuses on the role of physical theory and computational electroch...
The behavior of battery cells is intrinsically multiscale, as the multiphysics phenomena involving d...
Establishing a link between atomistic processes and battery cell behavior is a major challenge for l...
Physics-based electrochemical battery models derived from porous electrode theory are a very powerfu...
Establishing a link between atomistic processes and battery cell behavior is a major challenge for l...
Li-ion battery technology has a great success and is widely used in various portable technologies an...
Establishing a link between atomistic processes and battery cell behavior is a major challenge for l...
The electrochemical properties and performances of lithium-ion batteries are primarily governed by t...
The performance and degradation of lithium batteries strongly depends on electrochemical, mechanical...
A microscopic model of a lithium battery is developed, which accounts for lithium diffusion within p...