Microfluidic technologies enable multi-tissue culture and precise control of media exchange and therefore have significant potential to create more complex in vitro models of reproductive systems, including endocrine cycles. However, microfluidic technologies have largely been applied to gamete-level culture in reproductive biology, with very little progress in organ-level culture. Herein...
Lead poisoning is the most common environmentally-caused disease in the United States and is threat to human health worldwide. Although efforts to prevent lead exposure have increased throughout the years, lead poisoning still remains a common problem. Lead toxicity is more prevalent in children, who suffer from permanent neurodevelopment and...
Semiconducting nanoelectronic materials, including single-walled carbon nanotubes (SWCNT) and transition metal dichalcogenides (TMDs) possess interesting optoelectronic properties that could enable next-generation electronics, sensing technologies, and biomedicine. In this thesis, biomolecule-assisted dispersion and assembly of these nanomaterials are explored for human toxicity, environmental hazard potential, and applications in supramolecular hydrogels.
Liquid-based...