Ceramics have unique characteristics (e.g., high resilience and strength, tunable electronic and ionic transport, bio-compatibility, ferroelectric response) that make them desirable for a variety of different applications. At UF, ceramics research tackles material design and processing challenges related to gas-turbine engines, battery materials, nuclear energy, drug delivery, and many more!
Faculty
Ph.D., 2008, University of California, Santa Barbara
Research Interests: nanomaterials, nanocomposites for electronic and biomedical applications, magnetic materials, multiferroics, polymers
Lab Website: Andrew Research Group
Ph.D., 2017, University of California, Santa Barbara
Research Interests: Energy Storage Materials, Lithium-ion Batteries, Structure-Property Relationships, X-ray Diffraction, Pair Distribution Function Analysis
Lab Website: Butala Research Group
Ph.D., 2015, University of Illinois at Urbana-Champaign
Research Interests: Advanced electron microscopy techniques, Quantitative analysis of electron microscopy data, Digital image processing, Understanding materials properties at the atomic scale, Functional oxides and semiconductors
Lab Website: Kim Electron Microscopy Group
Ph. D., 1973, Catholic University of America
Research Interests: Fracture of Brittle Materials; Fractal Geometry applied to fracture; Failure Analysis; Dental Ceramics; Biomedical Applications
Ph. D., 2002, The Pennsylvania State University
Research Interests: Multifunctional ceramics; energy materials; dielectrics and ionic conductors in bulk and thin film; single crystal growth; nuclear materials and detectors; bioceramics
Lab Website: Nino Research Group (NRG)
Ph.D., 1992, Johannes Gutenberg University of Mainz, Germany
Research Interests: Semiconductor oxides for energy harvesting and storage, photocatalysis and photolysis, electrodes for secondary batteries, barrier coatings, nanostructures in surface science and, biomedical applications of nanoparticles
Lab Website: Sigmund’s Group