Blair Brettmann




Assistant Professor
Primary School/Department: 
Georgia Tech School of Materials Science and Engineering

Office Location: 
MoSE 31100P
Georgia Institute of Technology


Blair Brettmann received her B.S. in Chemical Engineering at the University of Texas at Austin in 2007. She received her Master's in Chemical Engineering Practice from MIT in 2009 following internships at GlaxoSmithKline (Upper Merion, PA) and Mawana Sugar Works (Mawana, India). Blair received her Ph.D. in Chemical Engineering at MIT in 2012 working with the Novartis-MIT Center for Continuous Manufacturing under Prof. Bernhardt Trout. Her research focused on solid-state characterization and application of pharmaceutical formulations prepared by electrospinning. Following her Ph.D., Blair worked as a research engineer for Saint-Gobain Ceramics and Plastics for two years. While at Saint-Gobain she worked on polymer-based wet coatings and dispersions for various applications, including window films, glass fiber mats and architectural fabrics. Later, Blair served as a postdoctoral researcher in the Institute for Molecular Engineering at the University of Chicago with Prof. Matthew Tirrell.

Research Keywords:

Continuous pharmaceutical manufacturing, roll-to-roll coatings and films, electrospinning, polymer science, molecular engineering, surface and interfacial science, charged polymers, biomedical coatings

Research Areas:

Research Areas: 
Drug Design, Development and Delivery

Research Interests:

Blair's current research interests focus on rational design of functional advanced materials through understanding of interactions in multicomponent mixtures on the molecular scale, both at equilibrium and during processing. Her research group designs and studies new processing and characterization technologies using both experiments and theory, focusing on linking molecular to micron scale phenomena in complex systems to product performance. Application areas include pharmaceutical product development, renewable bioproducts and polymer composites.