Materials and Nanoscience
The Materials and Nanoscience Program in the Department of Chemistry is a multidisciplinary program that arose from a common interest between faculty to design, synthesize, and study new functional materials of all types, and also to develop them for use in important application areas. Some of the types of new materials being synthesized and studied include nanostructured organic liquid crystal assemblies and polymers, electrically and ionically conducting polymers, nanostructured inorganic thin films, inorganic nanocrystal systems, biopolymer–nanocrystal composites, molecular machines, responsive surfaces, carbon nanotube composites, and nanoporous cage structures and polymer films. The application areas that these materials are being investigated for include new display technologies, nanoelectronics, optical communications, water purification/desalination, separation and storage of gases, chemical sensing, solar energy conversion, and electrical energy storage in the form of improved Li batteries.
A substantial amount of this research in new materials and nanoscience is collaborative. In addition to collaborations between research groups in the department, many researchers in the program work closely with researchers in the National Renewable Energy Laboratory (NREL), the Soft Material Materials Research Center at CU (SMRC), the Physics Department, the Chemical & Biological Engineering Department, and several outside companies and universities.
Faculty in this area:
Tanja Cuk: Physical Chemistry, Heterogeneous Catalysis/Reaction Dynamics, Material Surfaces, and Renewable Energy
Niels Damrauer: Photochemical Reactions & Multi-electron Chemistry, Inorganic Chemistry, Physical Chemistry, Renewable Energy, Photochemistry, Reaction Dynamics
Gordana Dukovic: Nanotechnology/Materials, Physical Chemistry, Renewable Energy
Joel Eaves: Nanotechnology/Materials, Physical Chemistry, Theoretical Chemistry, Biophysics, Chemical Physics
Steven George: Surface Chemistry, Nanotechnology/Materials, Physical Chemistry, Renewable Energy
Oana Luca: Physical Inorganic Chemistry, Inorganic Chemistry and Organometallic, Solar Fuel Conversions
Seth Marder: Polymers, Nanostructures, Biomolecular-Solids
Andrés Montoya-Castillo: Physical Chemistry, Theoretical Chemistry, Chemical Physics
Richard Noble: Ionic Liquids, Use of External Fields for Selective Separations, Liquid Crystals
Jihye Park: Inorganic; Nanotechnology/Materials; Photochemical Reactions & Multi-electron Chemistry; Physical Organic Chemistry; Renewable Energy
Garry Rumbles: Photochemistry, Kinetics/Thermochemistry, Physical, Renewable Energy
Sandeep Sharma: Physical Chemistry, Theoretical Chemistry, Metalloenzymes, Gas phase Kinetics
David Walba: Supermolecular stereochemistry and materials chirality in the context of liquid crystal science and technology
Wei Zhang: Dynamic covalent chemistry, Energy storage, Nanotechnology/Materials, Self-assembly, Self-healing, Synthesis
Research Resource Links
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