In a recent article, researchers from the University of Jyväskylä, Finland, emphasize the importance of multiscale modeling of catalysis in understanding and developing (electro)chemical processes.

Printed smart materials, particularly metals and ceramics, demand intensive multiscale modeling to accurately describe their behavior. The figure below illustrates a typical microstructure of a ...

This repository contains the sources for the Modular Multiscale Approach (MMA) for High-Harmonic Generation (HHG) modelling and tutorials showing examples of usage. It is still under active ...

“Multiscale Structural Mechanics: Top-Down Modeling of Composite Structures Using Mechanics of Structure Genome” delivers a unified approach to composites modeling based on the concept of structure ...

ABSTRACT: Cognitive impairment is a frequent and debilitating outcome of stroke, profoundly affecting patient independence, recovery trajectories, and long-term quality of life. Despite its prevalence ...

A new study published in AI Materials presents a comprehensive multi-scale computational framework capable of predicting the mechanical responses of Fe–Cr–Al alloys while incorporating both ...

Abstract: Multiscale multiphysics modeling, design, and simulation-based nanomaterial and nanostructure have emerged as a powerful tool revolutionizing engineering and technology to serve as a ...

Predicting how molecular changes affect the brain’s overall activity is a major challenge in neuroscience. Many deep questions about the brain can only be understood by looking at several layers of ...