Analytical Chemistry
Research Areas
- Bioanalytical
- Surface Science
- Nanomaterials and nanoscale processes
- Bioelectrocatalysis
- Interfacial Chemistry
- Spectroscopy
- Mass spectrometry
- Electrochemistry
Interfacial and Bioanalytical Chemistry (IBAC)
Interfacial and Bioanalytical Chemistry (IBAC) provides a unique focus for graduate education in electroanalytical methods, surface-plasmon resonance spectroscopy, sum-frequency and second-harmonic generation, Raman microscopy, single-molecule fluorescence spectroscopy, and nanoscale self-assembled structures
Center for Synthetic Organic Electrochemistry
The National Science Foundation (NSF) has awarded the U’s Center for Synthetic Organic Electrochemistry (CSOE) a $20 million grant to improve the sustainability of synthetic chemistry. The center merges synthetic organic chemistry and electrochemistry to develop safe and sustainable chemical production methods. For more details on the mission and vision of CSOE, see: CSOE Mission and Vision video.Courses
- Optical Spectroscopy
- Bioanalytical Chemistry
- Electrochemistry
- Transport and Chemical Processes
- Information Processing
- Separations
- Surface Chemistry
- Nanoscience
- µ-Total Analysis Systems/ Lab-on-a-Chip
- Electronics
- Materials Design for Alternative Energy
- Chemical and Biological Sensors
Faculty
Scott L. Anderson
Nanoscale surface chemistry, catalysis, nanoparticle mass spectrometry, high energy density nanoparticle fuels, development of new techniques for nanoscale surface analysis.
Peter B. Armentrout
Mass spectrometry to study thermochemistry and dynamics of biological, environmental, organometallic and plasma reactions
John C. Conboy
Analysis of protein interactions at solid/liquid and liquid/liquid interfaces usingnonlinear optical spectroscopies and electrochemical methods.
Ming C. Hammond
Biosensors for live cell imaging, high-throughput screening, and synthesis
Phone: 801-213-0892
Office: 224B CSC
mingch@chem.utah.edu
Joel M. Harris
Analytical methods using fluorescence and Raman spectroscopy for characterizing liquid/solid interfaces and nanostructured materials
Long Luo
Electrochemistry, chemical sensing, organic synthesis, functional materials, and catalysis
Phone: (801) 587-2605
Office: 2154 HEB
Email Professor Luo
Shelley D. Minteer
Enzymatic bioelectrocatalysis, fuel cells, batteries, electrosynthesis
Gabe Nagy
Bioanalytical separations, ion mobility spectrometry-mass spectrometry, carbohydrate chemistry
Jennifer Shumaker-Parry
Nanoparticle synthesis and assembly, plasmonics, interfacial chemical analysis, fabricated nanostructures, surface plasmon resonance spectroscopy and microscopy, plasmon-based optical antennas, surface enhanced spectroscopy
Henry S. White
Electrochemistry
Ilya Zharov
Nanoporous materials, functional organic and hybrid organic/inorganic materials, nanoparticles, surface chemistry, polymers, anti-cancer agents, self-assembly, molecular recognition