Areas of Research
- Additive Manufacturing
- Computational Synthesis of 2D Materials
- Materials Under Extreme Conditions Modeling
- Multiscale/Multiphysics Modeling of Materials and Processes
- Process-Microstructure-Property Correlation
Prof. Momeni’s main areas of expertise are Computational Mechanics and Material Science and Materials Genome.
Specifically, he focuses on developing theoretical and numerical tools to understand the multiscale and multiphysics response of materials.
In particular, he studies materials and processes for additive manufacturing, low-dimensional electronic materials, materials for energy applications, materials under extreme conditions, and metamaterials.
Dr. Momeni’s main areas of expertise are solid mechanics and materials science, focusing on developing theoretical/numerical tools to understand multi-scale/physics response of materials and designing experimental procedures to make superior materials.
Research Interests:
- Accelerating Materials Innovation
- Synergistic Interaction among Computation, Experiment, and Theory
- Hierarchical Materials by Design
- Materials Genomics
- Multi-scale/physics Modeling
- Materials in Extreme Environments
- Materials for Energy Applications
- Additive Manufacturing
- Low-Dimensional Materials
- Phase Transforming and Smart Materials
- High Performance Computing
Research:
- Materials under extreme environments
- Energetic materials
- Materials for energy
- Low-Dimensional Materials
Reasearch
- What is a Theory?
- Modeling vs. Simulation
- What is Multiscale Modeling?
- What is Multiscale Simulation?
- What is an experiment?
We are interested in understanding atomic and molecular processes, developing mathematical and numerical models, and establishing computational tools for multiscale/physics systems with the aim of hierarchical design of advanced and nanomaterials.