Inorganic

Inorganic chemistry is concerned with the properties and behavior of inorganic compounds. This field covers all chemical compounds except the myriad organic compounds (carbon-based compounds, usually containing C-H bonds), which are the subjects of organic chemistry. The distinction between the two disciplines is far from absolute, and there is much overlap, most importantly in the sub-discipline of organometallic chemistry.  Inorganic chemistry research in the Department spans the continuum from small molecule systems to metalloproteins, from the investigation of the reactivity properties of synthetic complexes to the use of metal-based reagents for probing protein-DNA interactions.

Core Faculty

Eric Cueny

Area: Organometallic Chemistry and Catalysis

The Cueny Group combines interests in organometallic chemistry, catalysis, and sustainability. The goal of our research is the development of new catalytic approaches to utilize waste products of society (such as CO2 and/or waste plastic) as starting materials in the synthesis of fuels, commodity chemicals, and new materials. We are interested in both the synthesis of novel organometallic complexes to perform these challenging chemical transformations as well as the detailed kinetic and mechanistic investigation of these catalytic reactions. We will leverage cooperative catalytic strategies to achieve higher activity and selectivity in the proposed catalytic transformations. The cooperative catalytic strategies we are targeting include transmetallation chemistry, metal-ligand cooperativity, and bimetallic complexes.

Linda Doerrer

Area: Fluorinated ligands for Catalysis

Th
Professor Sean Elliott

Sean Elliott

Area: Bioinorganic chemistry and metallobiochemistry

The Elliott Group uses Protein film voltammetry (PFV) to explore the electron transfer pathways and redox-dependent catalytic chemistry of complex metalloproteins such as sulfite reductase and multicopper oxidases. They  also develop proteomic tools to enable probing the ‘metallome’ — a complete read-out of the metal-binding components of biological pathways. These experiments provide insights into the role of metal ions in biological chemistry.