Why combinatorial materials science and informatics?
Combinatorial sciences and materials informatics are the enabling tools for significantly enhancing the next generation of materials science problems through:
- Accelerated insertion of materials into engineering systems
- Rapid multiscale design and optimization of materials properties
- Establishment of new structure property correlations among large, heterogeneous and distributed data sets
- Discovery of new chemistries and compounds
- Formulation and / or refinement of new theories for materials behavior
- Identification of critical data and theoretical needs for future problems
What are we combining combinatorially?
Data Driven Materials Science: Information is multivariate, diverse, very large and access / expertise is globally distributed
How do we process discrete data: Informatics?
Interdisciplinary interface between materials science and the information sciences
