Tissue engineering offers a promising approach for the replacement of diseased or injured tissues, and is based upon the premise that cells can be induced to form new tissues when presented with the appropriate set of environmental cues. Polymer scaffolds play a central role in most tissue engineering strategies by...
Resource recovery is a promising category of polymer recycling where polymeric waste is converted via thermal or chemical means to monomer and chemical feedstocks. Specifically, pyrolysis is an attractive method because of its simplicity and ability to handle a heterogeneous feedstock. Polymer pyrolysis is characterized by a complex free radical...
End-Labeled Free-Solution Electrophoresis, or ELFSE, is an alternative strategy for DNA sequencing that proposes to eliminate the need for a viscous sieving matrix for size-based DNA separation. In this bioconjugate method, a perturbing entity or "drag-tag" is attached to differently sized DNA fragments produced by the Sanger reaction. This drag-tag...
Cells are regulated by a combination of soluble stimuli and adhesive interactions with other cells and the extracellular matrix (ECM). We are developing systems to present ECM and cytokine receptor ligands in a defined manner for applications in hematopoietic stem and progenitor cell (HSPC) culture. We hypothesize that the controlled,...
The de novo design of bio-inspired materials with precisely controlled properties is challenging, but has potential applications in nano-biotechnology. Applications range from nanometer scaled assemblies to three-dimensional scaffolds for tissue engineering. Genetic engineering of protein-based polymers offers distinct advantages over traditionally synthesized polymers, de novo proteins can be produced with...
The growing worldwide threat of antibiotic-resistant pathogens has necessitated a constant search for new classes of antibiotics. Antimicrobial peptides (AMPs) are integral components of innate immunity in virtually every living organism, and, due to their proven efficacy over millions of years of evolution, are considered promising leads for new antibiotic...
Over the past decade and a half, there has been considerable interest in the effect confinement and interfaces have on the properties of glass forming materials. With the emergence of nanotechnology, some glass formers, in particular polymeric glass formers, will be used at increasingly smaller length scales. An understanding of...
Natural tissues can have complex architectures characterized by the organization of multiple cells into structures, such as branching networks of the vascular or nervous systems. This cellular organization arises, in part, from spatial patterns in the expression of soluble factors, which create concentration gradients that direct cellular processes during morphogenesis....
The world's aquatic food webs are currently in crisis due to the cumulative, interacting effects of anthropogenic pressures including non-indigenous species invasions, chemical contamination, overfishing, habitat disruption and global climate change. Efforts to restore or protect the integrity and sustainability of these systems are limited by a lack of knowledge...
The average and local glass transition temperatures (Tgs) and physical aging behavior of various confined polymers were studied in order to gain an understanding of these surface/interface effects and their propagation into the polymer. Using a novel multilayer/fluorescence method, the Tgs of layers at the free surface, substrate-polymer interface, and...