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Biography and Research Information
OverviewAI-generated summary
Hamed Mehrabi's research focuses on electrochemical processes and materials for energy conversion and catalysis. His work includes investigating the catalytic hydrogen evolution from formate using imine covalent organic frameworks and characterizing solar-to-hydrogen electrocatalysis enabled by crude glycerol oxidation. Mehrabi has also studied the electrochemical control of copper surface morphology and functional properties, as well as the characterization of catalyst function in the plasma reduction of CO2 on atomic layer deposition-synthesized catalysts. His publications also cover the monolithic light concentration by core-shell TiO2 nanostructures and the controlled exposure of CuO thin films through TiO2 overlayers.
Mehrabi has a track record of recent publications in peer-reviewed journals, with his most recent work appearing in 2024. He has collaborated extensively with researchers at the University of Arkansas at Fayetteville, including Robert H. Coridan and Samuel K. Conlin, with whom he shares multiple publications. His scholarship metrics include an h-index of 6, with 21 total publications and 161 total citations.
Metrics
- h-index: 6
- Publications: 21
- Citations: 166
Selected Publications
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Characterizing catalyst function and transformations in the plasma reduction of CO<sub>2</sub> on atomic layer deposition-synthesized catalysts (2024)
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Characterizing Catalyst Function and Transformations in the Plasma Reduction of CO 2 on Atomic Layer Deposition-Synthesized Catalysts (2024)
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Modular Solar-to-Fuel Electrolysis at Low Cell Potentials Enabled by Glycerol Electrooxidation and a Bipolar Membrane Separator (2023)
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Modular solar-to-fuels electrolysis at low cell potentials enabled by glycerol electrooxidation and a bipolar membrane separator (2023)
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Modular solar-to-fuels electrolysis at low cell potentials enabled by glycerol electrooxidation and a bipolar membrane separator (2023)
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Monolithic light concentration by core–shell TiO <sub>2</sub> nanostructures templated by monodisperse polymer colloidal monolayers (2023)
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Monolithic light concentration by core-shell TiO2 nanostructures templated by monodisperse polymer colloidal monolayers (2023)
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Electrochemical Control of the Morphology and Functional Properties of Hierarchically Structured, Dendritic Cu Surfaces (2022)
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Electrochemical control of the morphology and functional properties of hierarchically structured, dendritic Cu surfaces (2022)
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Characterizing Sustained Solar-to-Hydrogen Electrocatalysis at Low Cell Potentials Enabled by Crude Glycerol Oxidation (2022)
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Controlled exposure of CuO thin films through corrosion-protecting, ALD-deposited TiO<sub>2</sub> overlayers (2021)
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Probe metal binding mode of imine covalent organic frameworks: cycloiridation for (photo)catalytic hydrogen evolution from formate (2021)
Collaboration Network
Top Collaborators
Robert H. Coridan
University of Arkansas at Fayetteville
12 shared publications
In database
- Probe metal binding mode of imine covalent organic frameworks: cycloiridation for (photo)catalytic hydrogen evolution from formate
- Characterizing Sustained Solar-to-Hydrogen Electrocatalysis at Low Cell Potentials Enabled by Crude Glycerol Oxidation
- Electrochemical Control of the Morphology and Functional Properties of Hierarchically Structured, Dendritic Cu Surfaces
- Characterizing catalyst function and transformations in the plasma reduction of CO<sub>2</sub> on atomic layer deposition-synthesized catalysts
- Controlled exposure of CuO thin films through corrosion-protecting, ALD-deposited TiO<sub>2</sub> overlayers
Showing 5 of 12 shared publications
Samuel K. Conlin
University of Arkansas at Fayetteville
10 shared publications
In database
- Characterizing Sustained Solar-to-Hydrogen Electrocatalysis at Low Cell Potentials Enabled by Crude Glycerol Oxidation
- Electrochemical Control of the Morphology and Functional Properties of Hierarchically Structured, Dendritic Cu Surfaces
- Characterizing catalyst function and transformations in the plasma reduction of CO<sub>2</sub> on atomic layer deposition-synthesized catalysts
- Electrochemical control of the morphology and functional properties of hierarchically structured, dendritic Cu surfaces
- Monolithic light concentration by core–shell TiO <sub>2</sub> nanostructures templated by monodisperse polymer colloidal monolayers
Showing 5 of 10 shared publications
Zebulon G. Schichtl
University of Arkansas at Fayetteville (US)
4 shared publications
- Characterizing Sustained Solar-to-Hydrogen Electrocatalysis at Low Cell Potentials Enabled by Crude Glycerol Oxidation
- Modular Solar-to-Fuel Electrolysis at Low Cell Potentials Enabled by Glycerol Electrooxidation and a Bipolar Membrane Separator
- Modular solar-to-fuels electrolysis at low cell potentials enabled by glycerol electrooxidation and a bipolar membrane separator
- Modular solar-to-fuels electrolysis at low cell potentials enabled by glycerol electrooxidation and a bipolar membrane separator
Thomas I. Hollis
University of Arkansas at Fayetteville
3 shared publications
In database
- Electrochemical Control of the Morphology and Functional Properties of Hierarchically Structured, Dendritic Cu Surfaces
- Controlled exposure of CuO thin films through corrosion-protecting, ALD-deposited TiO<sub>2</sub> overlayers
- Electrochemical control of the morphology and functional properties of hierarchically structured, dendritic Cu surfaces
Johanna Nelson Weker
SLAC National Accelerator Laboratory (US)
2 shared publications
- Electrochemical Control of the Morphology and Functional Properties of Hierarchically Structured, Dendritic Cu Surfaces
- Electrochemical control of the morphology and functional properties of hierarchically structured, dendritic Cu surfaces
Rachel Cherry
University of Arkansas at Fayetteville
2 shared publications
In database
- Monolithic light concentration by core–shell TiO <sub>2</sub> nanostructures templated by monodisperse polymer colloidal monolayers
- Monolithic light concentration by core-shell TiO2 nanostructures templated by monodisperse polymer colloidal monolayers
Joseph Joel Muhanga
University of Arkansas at Fayetteville
2 shared publications
In database
- Monolithic light concentration by core–shell TiO <sub>2</sub> nanostructures templated by monodisperse polymer colloidal monolayers
- Monolithic light concentration by core-shell TiO2 nanostructures templated by monodisperse polymer colloidal monolayers
David N. Parette
University of Arkansas at Fayetteville
2 shared publications
In database
- Characterizing catalyst function and transformations in the plasma reduction of CO<sub>2</sub> on atomic layer deposition-synthesized catalysts
- Characterizing Catalyst Function and Transformations in the Plasma Reduction of CO 2 on Atomic Layer Deposition-Synthesized Catalysts
Ji‐Yun Hu
University of Arkansas at Fayetteville (US)
1 shared publication
- Probe metal binding mode of imine covalent organic frameworks: cycloiridation for (photo)catalytic hydrogen evolution from formate
Yin‐Shan Meng
Dalian University (CN)
1 shared publication
- Probe metal binding mode of imine covalent organic frameworks: cycloiridation for (photo)catalytic hydrogen evolution from formate
Maddison Taylor
University of Arkansas at Fayetteville (US)
1 shared publication
- Probe metal binding mode of imine covalent organic frameworks: cycloiridation for (photo)catalytic hydrogen evolution from formate
Jin‐Hui Zhan
Institute of Process Engineering (CN)
1 shared publication
- Probe metal binding mode of imine covalent organic frameworks: cycloiridation for (photo)catalytic hydrogen evolution from formate
Qigeng Yan
University of Arkansas at Fayetteville (US)
1 shared publication
- Probe metal binding mode of imine covalent organic frameworks: cycloiridation for (photo)catalytic hydrogen evolution from formate
Mourad Benamara
University of Arkansas at Fayetteville
1 shared publication
In database
- Probe metal binding mode of imine covalent organic frameworks: cycloiridation for (photo)catalytic hydrogen evolution from formate
M. Hassan Beyzavi
University of Arkansas at Fayetteville
1 shared publication
In database
- Probe metal binding mode of imine covalent organic frameworks: cycloiridation for (photo)catalytic hydrogen evolution from formate
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