Inorganic Chemistry Faculty
Our group prepares and studies rare examples of materials and complexes of the heaviest elements for which macroscopic properties can be obtained from nuclear reactors.
Proton-coupled electron transfer reactions play essential roles in a variety of aqueous and biological redox processes; however, the overall redox mechanisms can be quite complex...
The Hanson research group focuses on the design, synthesis and characterization of light absorbing and emitting molecules for various applications.
The Latturner group explores metal flux synthesis of inorganic semiconductors and intermetallics of interest for their magnetic and electronic properties.
Our research focuses the development of new functional materials for applications in a wide range of technological areas from energy to environmental and information technologies.
The Ouyang research group develops and applies data-driven approaches to design and understand materials for energy storage and conversion.
We study relationships between crystal and electronic structures and properties of materials, in order to design and synthesize better magnets, catalysts, and stimuli-responsive molecular materials.
We are principally interested in exploring the interface between traditional inorganic chemistry and materials science. To this end, techniques for studying the reactivity, structure, and bonding of inorganic complexes.
The Strouse group focuses on the molecular engineering and design of a wide range of stimuli responsive nanoscale materials.