Emiliano Brini
Assistant Professor
School of Chemistry and Materials Science
College of Science
585-475-2287
Office Location
Emiliano Brini
Assistant Professor
School of Chemistry and Materials Science
College of Science
Bio
My group is interested in studying and characterizing the thermodynamic properties of soft matter systems. In particular, we focus on the thermodynamics of protein-protein interactions, the solvation behavior of organic drug-like molecules, and the structure-property relations of materials. We aim to understand the fundamental driving forces of these processes and use this knowledge for practical applications. To this end, we develop and apply integrative computational modeling tools that combine physics-based simulations (molecular dynamics) with recent developments in machine learning/artificial intelligence. To learn more, please visit our group website.
585-475-2287
Areas of Expertise
Physical Chemistry
Computational Chemistry
Molecular Dynamics
Soft Matter
Statistical Physics
Structural Biology
Biophysics
Computational Biochemistry
Computational Biology
Bioinformatics
Protein Biochemistry
Computational Methods
Computational Modeling
Machine Learning
Modeling and Simulation
Modeling and Simulations
Molecular Biology
Currently Teaching
CHEM-493
Chemistry Research
1 - 3 Credits
This course is a faculty-directed student project or research in chemistry that could be considered of an original nature.
CHEM-495
Advanced Chemistry Research
1 - 3 Credits
This course is a faculty-directed student project or research involving laboratory work, computer modeling, or theoretical calculations that could be considered of an original nature. The level of study is appropriate for students in their final two years of study.
CHMB-402
Biochemistry I
3 Credits
This course introduces the structure and function of biological macromolecules and their metabolic pathways. The relationship between the three-dimensional structure of proteins and their function in enzymatic catalysis will be examined. Membrane structure and the physical laws that apply to metabolic processes will also be discussed.
CHMB-493
Biochemistry Research
1 - 3 Credits
This course is a faculty-directed student project or research in biochemistry that could be considered of an original nature.
CHMB-495
Advanced Biochemistry Research
1 - 3 Credits
This course is a faculty-directed student project or research involving laboratory work, computer modeling, or theoretical calculations that could be considered of an original nature. The level of study is appropriate for students in their final two years of study.
CHMP-753
Computational Chemistry
3 Credits
This course will introduce students to an in-depth investigation into the computational theories and applications used to model complex physical and chemical phenomena. Computational methods are used to provide synergy linking experiment with theory involving such chemical processes as reaction mechanisms, docking, energy transfer and conformational conversions. Predicting spectral and thermodynamic properties of molecular systems and ensembles will also be treated.
MTSE-777
Graduate Project
1 - 4 Credits
This course is a capstone project using research facilities available inside or outside of RIT.
MTSE-790
Research & Thesis
1 - 9 Credits
Dissertation research by the candidate for an appropriate topic as arranged between the candidate and the research advisor.