M
Md Mohsin Patwary Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
grad_student
1 h-index
2 pubs
7 cited
Research Areas
Biography and Research Information
OverviewAI-generated summary
Md Mohsin Patwary, a graduate student at the University of Arkansas at Little Rock, focuses his research on electrocatalysis, particularly for energy conversion technologies. His work encompasses the study of conducting polymers and their applications in fuel cells and related materials. Patwary's research explores novel electrocatalysts, including a recent study on a non-precious catalyst derived from nanocellulose, dopamine, and a cobalt complex to enhance oxygen reduction reactions. He also investigates the use of natural amino acid-derived iron(III) catalysts for green oxidation chemistry applications.
Metrics
- h-index: 1
- Publications: 2
- Citations: 7
Selected Publications
-
Natural Amino Acid-Derived Iron(III) Catalysts for Green Oxidation Chemistry Applications (2025)
-
Exploring Enhanced Oxygen Reduction Reactions: A Study on Nanocellulose, Dopamine, and Cobalt Complex-Derived Non-Precious Electrocatalyst (2024)
Collaboration Network
Top Collaborators
Raja Shekhar Kondrapolu
University of Arkansas at Little Rock
2 shared publications
In database
- Exploring Enhanced Oxygen Reduction Reactions: A Study on Nanocellulose, Dopamine, and Cobalt Complex-Derived Non-Precious Electrocatalyst
- Natural Amino Acid-Derived Iron(III) Catalysts for Green Oxidation Chemistry Applications
Shanzida Haque
University of Arkansas at Little Rock
1 shared publication
In database
- Exploring Enhanced Oxygen Reduction Reactions: A Study on Nanocellulose, Dopamine, and Cobalt Complex-Derived Non-Precious Electrocatalyst
Peter Szwedo
University of Arkansas at Little Rock
1 shared publication
In database
- Exploring Enhanced Oxygen Reduction Reactions: A Study on Nanocellulose, Dopamine, and Cobalt Complex-Derived Non-Precious Electrocatalyst
G. I. Hasan
University of Arkansas at Little Rock
1 shared publication
In database
- Exploring Enhanced Oxygen Reduction Reactions: A Study on Nanocellulose, Dopamine, and Cobalt Complex-Derived Non-Precious Electrocatalyst
Fumiya Watanabe
University of Arkansas at Little Rock
1 shared publication
In database
- Exploring Enhanced Oxygen Reduction Reactions: A Study on Nanocellulose, Dopamine, and Cobalt Complex-Derived Non-Precious Electrocatalyst
Krishna KC
University of Arkansas at Little Rock
1 shared publication
In database
- Exploring Enhanced Oxygen Reduction Reactions: A Study on Nanocellulose, Dopamine, and Cobalt Complex-Derived Non-Precious Electrocatalyst
Daoyuan Wang
University of Arkansas at Pine Bluff (US)
1 shared publication
- Exploring Enhanced Oxygen Reduction Reactions: A Study on Nanocellulose, Dopamine, and Cobalt Complex-Derived Non-Precious Electrocatalyst
Anindya Ghosh
University of Arkansas at Little Rock (US)
1 shared publication
- Exploring Enhanced Oxygen Reduction Reactions: A Study on Nanocellulose, Dopamine, and Cobalt Complex-Derived Non-Precious Electrocatalyst
Karie Sanford
University of Arkansas at Little Rock
1 shared publication
In database
- Natural Amino Acid-Derived Iron(III) Catalysts for Green Oxidation Chemistry Applications
Paul Omituyaki
University of Arkansas at Little Rock
1 shared publication
In database
- Natural Amino Acid-Derived Iron(III) Catalysts for Green Oxidation Chemistry Applications
Taiwo-Oluwanifemi A. Fashina
Philander Smith College (US)
1 shared publication
- Natural Amino Acid-Derived Iron(III) Catalysts for Green Oxidation Chemistry Applications
Anindya Ghosh
University of Arkansas at Little Rock
1 shared publication
In database
- Natural Amino Acid-Derived Iron(III) Catalysts for Green Oxidation Chemistry Applications
Ambar B. RanguMagar
Philander Smith College (US)
1 shared publication
- Natural Amino Acid-Derived Iron(III) Catalysts for Green Oxidation Chemistry Applications