Synthesis
ASU students synthesize new organic and inorganic and organometallic structures for catalysis, organic/bioinorganic complexes inspired by nature, hybrid molecular/solid state materials for energy conversion, new layered 2-dimensional materials, new semiconductor materials based on designer molecular precursors, and complex self-assembled nanostructures based on DNA molecular origami, and novel DNA/protein complexes.
Inorganic solid-state chemistry, materials chemistry, non-conventional synthesis methods, microwave chemistry, inorganic solids, structure of solids, X-ray diffraction, two-dimensional materials, hybrid materials, surface chemistry, magnetism, catalysis
De-novo protein design and engineering, enzyme mechanisms, protein structure
Improved diagnoses and treatments for diseases caused by impaired energy metabolism
Bioinorganic chemistry, electrochemistry, hydrogenases, de novo protein design and engineering, redox enzyme mechanisms, alternative energy generation
Solid-state inorganic chemistry, thin film heterostructures, nanoscale devices, microelectronics
Synthesis, materials, nanoscale, catalysis/sustainability
Synthetic organic chemistry, carotenoids, photosynthesis, photochemistry
Organic chemistry, materials chemistry, solar energy transduction, photocatalysis, molecular electronics, chemical sensing, proton coupled electron transfer
Organometallic and Inorganic Chemistry, Homogeneous Catalysis, Small Molecule Activation, Green Chemistry, Reaction Mechanisms, Organic Synthesis