Advanced Battery Research with GeoDict
Digital Simulation of Electrode Structures and Transport Properties
GeoDict by Math2Market enables detailed 3D simulation and analysis of battery materials—based on real microstructure data or digitally generated models. It allows researchers to evaluate and optimize the performance of electrodes, separators, and solid electrolytes across a range of battery technologies.
By simulating relevant physical processes, GeoDict helps battery developers make informed decisions about material design, composition, and processing—without extensive physical prototyping.
Analyze Real Microstructures in 3D
GeoDict supports direct analysis of micro-CT imaging data and offers tools to generate virtual electrode structures with customizable parameters. This enables a precise understanding of the link between microstructure and performance.
Examples of battery components that can be studied:
- Electrodes (anodes and cathodes)
- Solid and liquid electrolytes
- Separators
Ready to Boost Your Battery Research?
Let’s explore how GeoDict can support your next battery development project—from materials design to virtual testing. Get in touch with our experts or request a personalized consultancy today.
What You Can Simulate with GeoDict
✔ Lithium-ion transport
Evaluate how microstructure influences ionic transport pathways within active materials.
✔ Electron conductivity
Analyze electrical conductivity based on the arrangement of active and conductive materials.
✔ Tortuosity and porosity
Quantify key geometric properties that affect transport and performance.
✔ Effective diffusivity
Assess diffusion behavior of lithium-ions through porous or composite domains.
These simulations help optimize material design to improve energy density, cycle life, and safety.
Application Areas
GeoDict supports the simulation of microstructure-based phenomena in batteries such as:
- Transport of ions and electrons
- Compression effects on the microstructure
- Distribution of active materials
- Anisotropy in conductivity or diffusivity
- Influence of manufacturing processes
The software is applicable to lithium-ion, solid-state, and other battery technologies.
🚀 Why Use GeoDict for Battery R&D?
🧠 Image-based or synthetic modeling: Work with actual scans or generate virtual structures.
📊 Comprehensive simulation suite: Simulate conductivity, diffusivity, and more within a unified environment.
⏱ Accelerated development: Reduce physical testing and refine designs virtually.
🔬 Research-proven accuracy: Built on validated models and workflows.