We are interested in resolving outstanding fundamental scientific problems that impede the computational materials design process. Our group uses high-throughput density functional theory, applied thermodynamics, and materials informatics to deepen our fundamental understanding of synthesis-structure-property relationships, while exploring new chemical spaces for functional technological materials. These research interests are driven by the practical goal of the U.S. Materials Genome Initiative to accelerate materials discovery, but whose resolution requires basic fundamental research in synthesis science, inorganic chemistry, and materials thermodynamics.
Accomplishments and Awards
- ‘Dolomite Problem’: 200-year-old geology mystery resolved
- Better battery manufacturing: Robotic lab vets new reaction design strategy
- 2023 Propelling Original Data Science (PODS) Grant Award: Machine-Processing of Graduate Student Applications for Diversity, Equity, and Inclusion