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6548 Forest Park Pkwy, St. Louis, MO 63112, USA

https://imse.wustl.edu/

J.A. Orlicki, Team Lead, Polymer Synthesis & Characterization Team, Army Research Laboratory

Developing new materials for Army applications requires a focus on performance metrics across a wide range of environmental conditions, while also considering pathways for scalable production and deployment.  This talk will briefly introduce the DEVCOM-Army Research Laboratory and focus on drivers and efforts to develop new polymers and to apply the tools of synthetic biology to the development of new materials.  This intersection of disciplines has led to highly interdisciplinary programs, primarily in the exploration of adhesive characteristics.  The exploration of bio-inspired approaches to adhesion will be discussed, ranging from a study of catechol co-polymer chemistries, evaluation of a novel curative for epoxies, to the use of peptide-display and related technologies to screen new adhesive interactions.  

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Contact Beth Gartin @ bgartin.wustl.edu for zoom link. 

6548 Forest Park Pkwy, St. Louis, MO 63112, USA

https://imse.wustl.edu/

J.A. Orlicki, Team Lead, Polymer Synthesis & Characterization Team, Army Research Laboratory

Developing new materials for Army applications requires a focus on performance metrics across a wide range of environmental conditions, while also considering pathways for scalable production and deployment.  This talk will briefly introduce the DEVCOM-Army Research Laboratory and focus on drivers and efforts to develop new polymers and to apply the tools of synthetic biology to the development of new materials.  This intersection of disciplines has led to highly interdisciplinary programs, primarily in the exploration of adhesive characteristics.  The exploration of bio-inspired approaches to adhesion will be discussed, ranging from a study of catechol co-polymer chemistries, evaluation of a novel curative for epoxies, to the use of peptide-display and related technologies to screen new adhesive interactions.