Karl Jacob




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

Office Location: 
MRDC 4509
Georgia Institute of Technology

Research Keywords:

Mechanics of materials, phase transformation and clustering, nanoscale modeling such as molecular dynamics and Monte Carlo methods, nanostructured composites, networked polymers, fracture, and drug delivery systems

Research Affiliations:

Research Center Affiliations: 
Center for Drug Design Development & Delivery

Research Areas:

Research Areas: 
Drug Design, Development and Delivery
Molecular, Cellular and Tissue Biomechanics

Research Interests:

Dr. Jacob's research is directed at stress induced phase changes, nanoscale characterization of materials, synthesis of polymeric nanofibers, mechanical behavior of fiber assemblies (particularly related to biological systems and biomimitic systems), nanoparticle reinforced composites, transdermal drug delivery systems, large scale deformation of rubbery (networked) polymers, and nanoscale fracture of materials. The objectives in this work, using theoretical, computational and experimental techniques, is to understand the effect of micro- and nano- structures in the behavior of materials in order to try to design the micro/nano structures for specific materials response.

Dr. Jacob plans are to continue current research interests with a multidisciplinary thrust with more emphasis in bio related areas and to start some work on the dynamic behavior of materials and structures. Graduate students could benefit from the interdisciplinary nature of the work combining classical continuum mechanics with nanoscale analysis for various applications, particularly in the nano and bio areas.

Dr. Jacob has extensive experience in vibrations and stability of structures, mechanics of polymeric materials, behavior of fiber assemblies, stress-induced phase transformation, diffusion, and molecular modeling. His research involves the application of mechanics principles, both theoretical and experimental, in the analysis and design of materials for various applications.