Department of Chemical Engineering and Materials Science
NSF Graduate Research Fellows
Iris Fu (2012) is working with Prof.Hung Nguyen on elucidating detailed molecular-level mechanisms by which peptide-based conjugates are self-assembled into nanostructures as hydrogel for tissue engineering or encapsulating nanoparticles for gene delivery via molecular dynamics simulations.
Julius Edson (2013) is working with Prof. Young Jik Kwon on the synthesis and characterization of natural materials that can be used as antimicrobial materials. These materials can also be used as non- viral vectors for applications in gene therapy.
Dominique Ingato (2013) is working on developing safe and efficient non-viral gene delivery vehicles under the guidance of Associate Professor Young Jik Kwon. She focuses on nanotheranostics – the integration of diagnostic and therapeutic function in one system using nanotechnology.
Nicole Ing (2013) is working with Prof. Allon Hochbaum to study bacterial communities that control the flow of electricity through nanoscale protein- based wires. These bacteria and their conductive appendages are key to understanding the role microbes in geochemical cycles and are promising as active materials in hybrid bio-inorganic renewable energy technologies, from fuel cells to solar power.
Adrian Garcia (2014) is working with Prof. Regina Ragan on the control of graphene layers through metal alloys onto interesting substrates. This is an integral component of the next generation of high-energy density super- capacitors, carbon micro- electromechanical devices, and graphene applications in general.
Quynh Vo (2014) is working in the labs of Prof. Hung Nguyen and Prof. Mikael Nilsson. Vo’s research uses molecular dynamics simulations in conjunction with experimental work to clarify the processes involved in solvent extraction systems. This could improve extraction efficiency of radioactive materials from spent nuclear fuel.
Melissa Thone (2015), a chemical and biochemical engineering major, under Prof. Young Jik Kwon, is researching the use of extracellular vesicles (EVs) as therapeutic and diagnostic (nanotheranostic) platforms for cancer therapy. EVs have properties that could make them better drug delivery vehicles than current systems, which would allow for more effective treatment of a multitude of diseases.
Rylan Kautz, a materials science graduate student, fabricates reflectin films, analyzing their use as biological substrates for cell adhesion and growth. With reflectin's unique material properties, this work could introduce new types of tissue scaffolds and bioelectronic devices. His primary adviser is chemical engineering and materials science professor Alon Gorodetsky, but he also collaborates with Francesco Tombola’s physiology and biophysics lab, and Lisa Flanagan’s neurology lab.
Sarah Maxel (2018) works with adviser Han Li, chemical engineering and materials science assistant professor, to engineer biological cells that can convert renewable resources to useful chemicals like fuels, industrial commodities and pharmaceutical compounds. She uses synthetic biology and protein engineering to construct unnatural metabolic pathways that can help solve a range of metabolic engineering problems.