Professor Paula Hammond, MIT
Ph.D. Chemical Engineering, MIT
M.S. Chemical Engineering, Georgia Institute of Technology
B.A. Chemical Engineering, MIT
The Hammond research group focuses on the self-assembly of polymeric nanomaterials, with a major emphasis on the use of electrostatics and other complementary interactions to generate functional materials with highly controlled architecture. The uniting theme of the lab – the understanding and use of secondary interactions to guide materials assembly at surfaces and in solution – encompasses two major areas of research:
1) Layer-by-layer controlled release thin film coatings for biomedical implants that address bone regeneration, wound healing, tissue engineering and transdermal delivery from microneedle platforms,
2) Nanoparticle drug carriers for targeted nanoparticle drug, gene, and siRNA delivery for cancer treatment using unique platforms that enable combination and sequenced delivery strategies.
Ph.D. Chemical Engineering, MIT
M.S. Chemical Engineering, Georgia Institute of Technology
B.A. Chemical Engineering, MIT
The Hammond research group focuses on the self-assembly of polymeric nanomaterials, with a major emphasis on the use of electrostatics and other complementary interactions to generate functional materials with highly controlled architecture. The uniting theme of the lab – the understanding and use of secondary interactions to guide materials assembly at surfaces and in solution – encompasses two major areas of research:
1) Layer-by-layer controlled release thin film coatings for biomedical implants that address bone regeneration, wound healing, tissue engineering and transdermal delivery from microneedle platforms,
2) Nanoparticle drug carriers for targeted nanoparticle drug, gene, and siRNA delivery for cancer treatment using unique platforms that enable combination and sequenced delivery strategies.