Dr. Costanzi’s current scholarly work is based on two main research lines. The first one focuses on the application of computational chemistry to the study of the interactions between chemicals and living organisms. The second one focuses on the analysis of gaps in current policies and practices that allow chemical weapons proliferation and the conceptualization of ways to narrow them.
- Influence of the Structural Accuracy of Homology Models on Their Applicability to Docking-Based Virtual Screening: The β Adrenergic Receptor as a Case Study
- Controlling Novichoks After Salisbury: Revising the Chemical Weapons Convention Schedules
- Nerve Agents: What They Are, How They Work, How to Counter Them
Dr. Fox develops commercial and industrial products using sustainable materials. Our lab currently investigates new flame retardants, coatings, fiber reinforced plastics, and the health and safety (EHS) of nanomaterials.
“Simultaneously Tailoring Surface Energies and Thermal Stabilities of Cellulose Nanocrystals Using Ion Exchange: Effects on Polymer Composites Properties for Transportation, Infrastructure, and Renewable Energy Applications”
Dr. Hartings has two main laboratory research projects: 1) The use of 3D printing to create chemically reactive objects and 2) The development of novel environmental and biological sensors based off of stimulus-responsive materials. Dr. Hartings is also active in studying and communicating about all of the wonderful chemistry we do at home in our kitchens while we cook.
Dr. Konaklieva’s main research interest is in the area of using organic synthesis and evaluation towards the generation of new antibacterial, antiviral agents and lipoprotein metabolism modulators. Within this research, the group aims to develop efficient and environmentally friendly synthetic approaches for their preparation. Interdisciplinary projects are a main focus in the Konaklieva’s group, involving organic synthesis/medicinal chemistry, biochemistry, and structure-based drug design.
Dr. Zestos is a bioanalytical chemist who utilizes electrochemistry and chromatographic methods for bioanalysis. Research from his group focuses on the measuring rapid neurochemical changes of dopamine, serotonin, and other neurotransmitters. His work has vast implications for studying drugs of abuse, obesity, diabetes, depression, and many other diseases and behavioral states.
Dr. Zou develops catalysts for hydrogen fuel cells and conversion of carbon dioxide to organic fuels using sustainable materials.
Alexander Zestos received a Small Business Technology Transfer (STTR) grant award from the National Institutes of Health (NINDS/NIMH) for his work on multielectrode arrays for neurotransmitter detection for $144,992.
Zestos received a Small Business Innovation Research (SBIR) grant from the National Institute of Health, which will support his collaboration with a local company, Microprobes.
Zestos received a grant for $50,000 from the National Science Founation (NSF) for his research "I-Corps: Multielectrode Array Biosensor Development.”
Matthew Hartings received a grant for $17,020 from the Parker Hannifin Corporation for the work on his project regarding Nitro Cold Brew.
Douglas Fox was awarded a $149,900 grant from the National Institute of Standards and Technology (NIST) for his “Tailoring Cellulose Nanomaterial Surface Properties for Improved Polymer Stress Transfer."
Fox received $4,505, and is expected to receive additional funding of $23,191, from FiberLean Technologies for his research titled "Nanocellulose Labeling to Track Migration from Paper."
Fox received a grant for $6,176 from FiberLean Technologies for the project "Nanocellulose Migration from Food Coating."