Speaker: Sinan Keten

Title: Hierarchical Design of Nanoparticle Assemblies Inspired from Biomechanical Functions

Date/Time: March 26, 2019  /  13:40-14:30

Place: L062

Abstract:  Biological materials excel at serving mechanical functions, which may be passive as in structural materials, or dynamic, as in cell motility and adhesion components. Impressively, structural biomaterials such as nacre, bone and wood defy “rule of mixtures” relationships by employing high aspect ratio nanoparticles as building blocks in clever molecular designs. Lack of understanding of the physics of interfaces within nanoparticle assemblies makes it challenging to achieve similar mechanical properties with man-made polymeric materials. In this talk, I will present and overview of the state of the art in the bottom-up analysis of nanoparticle assemblies, touching upon new advances in interface design enabled by molecular and multi-scale simulations, machine learning tools, as well as bioinspiration. As a case study, investigations on thin films and nanocomposites made from renewable cellulose nanocrystals (CNCs) will be presented.Our theory and simulation-based inquiries into three complementary strategies for improving mechanical properties will be discussed. First, I will present analyses that explain how binary mixtures of nanocrystal lengths, and microstructural features such as a twisted plywood (Bouligand) lay-up of nanocrystals yield all-cellulosic transparent films with strength and toughness comparable to mineralized biomaterials. Second, I will discuss an efficient, molecular simulation informed metamodeling framework for predicting the mechanical response of polymer conjugated (hairy) CNC nanocomposites, revealing interface designs that yield Pareto optimality between stiffness and toughness. Finally, I will conclude with an outlook on dynamic interfaces in nanocomposites, specifically examining how basic allosteric principles of catch bonds in proteins could be reduced to simple mechanical models to create nanoparticle linkages with counterintuitive force-dependent kinetics.

BIO: Sinan Keten is an Associate Professor of Civil & Environmental Engineering and Mechanical Engineering at Northwestern University. He joined Northwestern University faculty in 2010 after obtaining his Ph.D. from MIT. His research expertise is on computational materials design and mechanics with an emphasis on polymer nanocomposites and biomolecular materials. He has over a hundred publications in this field, some of which have appeared in reputable interdisciplinary journals such as Nature Materials, Nature Communications, ACS Nano and Nano Letters. Prof. Keten has received a number of honors including Presidential Early Career Award for Scientists and Engineers (PECASE), Office of Naval Research (ONR) Young Investigator Program (YIP) Award, Society of Engineering Science Young Investigator Medal, JMBBM Early Career Award, and the ASME Haythornthwaite Award. He is a Fellow of the American Physical Society.

Contact:  Semih Onur Sezer