Research
| Topic | Researcher | Department | Introduction |
|---|---|---|---|
| Physical and Chemical Properties of Nanowires | D. Eric Aston | Chemical Engineering | Nanowires are made from all kinds of pure and mixed materials for an array of new and future applications... More > |
| Nanomaterials for Gene Knock-down | Rod Hill | Animal and Veterinary Science | Nanomaterials have the capacity to bind multiple biomolecules. More > |
| Intracellular Delivery of Biomolecules Using Nanomaterials | Kurt Gustin | Microbiology, Molecular Biology and Biochemistry | Many infectious agents, including viruses and some bacteria, fungi, and parasites, enter and persist in host cells, allowing them to evade immune mechanisms and antibiotics. More > |
| Nanomaterials for Biological Research | David N. McIlroy | Physics | Our group focuses on the development of bio-friendly nanomaterials that can be utilized in cell biology research and biosensing. More > |
| Bioorganic Chemistry | Patrick J. Hrdlicka | Chemistry | Several diseases are triggered by pathogenic proteins, which are encoded by DNA. More > |
| Computational Studies of Nanomaterials | F. Marty Ytreberg | Physics | Perhaps the best example of functional nano-machines are proteins. More > |
| Nanomaterials for Nucleic Acid Sensing | James J. Nagler | Biological Sciences | Biological sciences currently use microarrays to address scientific questions and provide diagnostic information regarding genomics. More > |
| Nanomaterials for Gene Knockdown In Vivo | Deborah L. Stenkamp | Biological Sciences | The zebrafish is an outstanding model system for the study of the developmental genetics of organogenesis and cell differentiation. More > |
| Nanomaterials for Molecular Sensor Applications | Pamela Shapiro | Chemistry | We are working with other members of the BANTech team to chemically functionalize nanomaterials for molecular sensor applications and for the intracellular delivery of biomolecules. More > |