Hamed Mehrabi
Postdoctoral Scientist
University of Arkansas at Fayetteville
postdoc
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Biography and Research Information
OverviewAI-generated summary
Hamed Mehrabi investigates electrochemical processes for energy conversion and materials synthesis. His research has focused on characterizing catalyst functions in the plasma reduction of CO2, particularly on catalysts synthesized using atomic layer deposition. Mehrabi has also studied the solar-to-hydrogen conversion efficiency enabled by glycerol oxidation at low cell potentials, including the use of bipolar membrane separators. His work includes the electrochemical control of copper surface morphology and functional properties, as well as the development of monolithic light concentrators using titania nanostructures. He has co-authored publications with researchers at the University of Arkansas at Fayetteville, including Robert H. Coridan and Samuel K. Conlin.
Metrics
- h-index: 6
- Publications: 21
- Citations: 156
Selected Publications
- Characterizing catalyst function and transformations in the plasma reduction of CO<sub>2</sub> on atomic layer deposition-synthesized catalysts (2024) DOI
- Characterizing Catalyst Function and Transformations in the Plasma Reduction of CO 2 on Atomic Layer Deposition-Synthesized Catalysts (2024) DOI
- Modular Solar-to-Fuel Electrolysis at Low Cell Potentials Enabled by Glycerol Electrooxidation and a Bipolar Membrane Separator (2023) DOI
- Modular solar-to-fuels electrolysis at low cell potentials enabled by glycerol electrooxidation and a bipolar membrane separator (2023) DOI
- Modular solar-to-fuels electrolysis at low cell potentials enabled by glycerol electrooxidation and a bipolar membrane separator (2023) DOI
- Monolithic light concentration by core–shell TiO <sub>2</sub> nanostructures templated by monodisperse polymer colloidal monolayers (2023) DOI
- Monolithic light concentration by core-shell TiO2 nanostructures templated by monodisperse polymer colloidal monolayers (2023) DOI
- Electrochemical Control of the Morphology and Functional Properties of Hierarchically Structured, Dendritic Cu Surfaces (2022) DOI
- Electrochemical control of the morphology and functional properties of hierarchically structured, dendritic Cu surfaces (2022) DOI
- Characterizing Sustained Solar-to-Hydrogen Electrocatalysis at Low Cell Potentials Enabled by Crude Glycerol Oxidation (2022) DOI
- Controlled exposure of CuO thin films through corrosion-protecting, ALD-deposited TiO<sub>2</sub> overlayers (2021) DOI
- Probe metal binding mode of imine covalent organic frameworks: cycloiridation for (photo)catalytic hydrogen evolution from formate (2021) DOI
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