S
S. M. Sayem Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Graduate Research Assistant
grad_student
4 h-index
8 pubs
35 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
S. M. Sayem's research focuses on the synthesis and application of nanostructured materials. Their work includes investigating methods for enhancing material properties, such as the tribological performance of MoS2 coatings through doping and the antibacterial properties of aluminum foil via surface nanostructuring with steam treatment. Sayem has also studied the growth of zinc oxide nanowires using a hot water deposition method, examining the influence of substrate location and temperature on this process.
Further research has explored the durability of metal oxide nanostructures created by hot water treatment. In the context of energy storage, Sayem's work includes investigating the use of nanostructured tellurium layers deposited by glancing angle deposition to mitigate dendrite formation and side reactions in the anode of aqueous Zn-ion batteries. Sayem has collaborated with researchers including Tansel Karabacak, Emad Badradeen, Shanzida Haque, and Nawzat S. Saadi.
Metrics
- h-index: 4
- Publications: 8
- Citations: 35
Selected Publications
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Correction: Enhancing tribological properties of MoS2 coatings through doping: a review of mechanisms and applications (2025)
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Glancing Angle Deposited Nanostructured Tellurium Layer Against Dendrite Formation and Side Reactions in Aqueous Zn-Ion Battery Anode (2025)
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Enhancing tribological properties of MoS2 coatings through doping: a review of mechanisms and applications (2025)
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Growth of zinc oxide nanowires by a hot water deposition method (2024)
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Influence of Substrate Location and Temperature Variation on the Growth of ZnO Nanorods Synthesized by Hot Water Treatment (2024)
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Durability of metal oxide nanostructures synthesized by hot water treatment (2024)
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Correction: Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment (2023)
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Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment (2023)
Collaboration Network
Top Collaborators
Tansel Karabacak
University of Arkansas at Little Rock
6 shared publications
In database
- Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
- Growth of zinc oxide nanowires by a hot water deposition method
- Durability of metal oxide nanostructures synthesized by hot water treatment
- Influence of Substrate Location and Temperature Variation on the Growth of ZnO Nanorods Synthesized by Hot Water Treatment
- Glancing Angle Deposited Nanostructured Tellurium Layer Against Dendrite Formation and Side Reactions in Aqueous Zn-Ion Battery Anode
Showing 5 of 6 shared publications
Nawzat S. Saadi
University of Arkansas at Little Rock
3 shared publications
In database
- Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
- Growth of zinc oxide nanowires by a hot water deposition method
- Correction: Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
Shanzida Haque
University of Arkansas at Little Rock
3 shared publications
In database
- Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
- Durability of metal oxide nanostructures synthesized by hot water treatment
- Correction: Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
Emad Badradeen
University of Arkansas at Pine Bluff
3 shared publications
In database
- Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
- Influence of Substrate Location and Temperature Variation on the Growth of ZnO Nanorods Synthesized by Hot Water Treatment
- Correction: Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
Quinshell Smith
University of Arkansas at Little Rock
2 shared publications
In database
- Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
- Correction: Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
Kenneth Burnett
University of Kansas Medical Center (US)
2 shared publications
- Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
- Correction: Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
Nawab Ali
University of Arkansas at Little Rock
2 shared publications
In database
- Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
- Correction: Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
John Bush
University of Arkansas at Little Rock
2 shared publications
In database
- Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
- Correction: Enhancing antibacterial property of aluminum foil by nanostructuring its surface through a steam treatment
Ranjitha K. Hariharalakshmanan
Rensselaer Polytechnic Institute
2 shared publications
In database
- Durability of metal oxide nanostructures synthesized by hot water treatment
- Influence of Substrate Location and Temperature Variation on the Growth of ZnO Nanorods Synthesized by Hot Water Treatment
Nihal Ahmed
University of Arkansas at Little Rock
2 shared publications
In database
- Enhancing tribological properties of MoS2 coatings through doping: a review of mechanisms and applications
- Correction: Enhancing tribological properties of MoS2 coatings through doping: a review of mechanisms and applications
Manawwer Alam
University of Arkansas at Little Rock
2 shared publications
In database
- Enhancing tribological properties of MoS2 coatings through doping: a review of mechanisms and applications
- Correction: Enhancing tribological properties of MoS2 coatings through doping: a review of mechanisms and applications
Mahmudul Hassan
University of Arkansas at Little Rock
2 shared publications
In database
- Enhancing tribological properties of MoS2 coatings through doping: a review of mechanisms and applications
- Correction: Enhancing tribological properties of MoS2 coatings through doping: a review of mechanisms and applications
Blessing I. Hammer
University of Arkansas at Little Rock
1 shared publication
In database
- Durability of metal oxide nanostructures synthesized by hot water treatment
Shawn E. Bourdo
University of Arkansas at Little Rock
1 shared publication
In database
- Influence of Substrate Location and Temperature Variation on the Growth of ZnO Nanorods Synthesized by Hot Water Treatment
Laylan B. Hassan
University of Arkansas at Little Rock
1 shared publication
In database
- Growth of zinc oxide nanowires by a hot water deposition method
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