Dr. Md. Mahmud Alam: h-index, Total Citations, and Citation Map

Dr. Md. Mahmud Alam's h-index is 38 (95 i10-index, 4,057+ total citations across 1+ publications) according to Google Scholar as of June 2026. Dr. Md. Mahmud Alam is affiliated with Postdoctoral Associate, Department of Civil and Machanical Engineering.

Dr. Md. Mahmud Alam is a researcher affiliated with Postdoctoral Associate, Department of Civil and Machanical Engineering, specializing in Catalysis, Electrochemistry, Chemical & biosensors. Their work has been cited 4,057 times. This profile visualizes their global influence, highlighting strong citation networks in Bangladesh.

CatalysisElectrochemistryChemical & biosensorsMetal ion detectionSemiconductive metal oxides

38h-index

95i10-index

4,057Citations

1Works

3Countries

Postdoctoral Associate, Department of Civil and Machanical Engineering•

Google Scholar

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Dr. Md. Mahmud Alam's Citation Metrics

Bibliometric impact based on 1 indexed publication.

H-Index: 38
i10-Index: 95
Total Citations: 4,057
Citing Countries: 3

As of June 2026.

Dr. Md. Mahmud Alam has an h-index of 38 and 4,057 total citations across 1 publication, with research cited by institutions in 3 countries.

Crawled 1 / 1 publications·2 / 4,057 citations

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Detection of uric acid based on doped ZnO/Ag2O/Co3O4 nanoparticle loaded glassy carbon electrode†

2019176

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Top Citing Countries

Bangladesh(BD)

Malaysia(MY)

Singapore(SG)

Top Citing Institutions

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National University of Singapore

Universiti Malaysia Sabah

Jessore University of Science and Technology

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Views and exports tuned for EB-1A, O-1A, and EB-2 NIW petitions. Sustained acclaim, geographic reach, and independent-citation filtering are the strongest evidence categories immigration adjudicators look for.

Significant Contributions

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Auto-detected research lines — a seminal paper and the follow-up work building on it. Review and edit before using in a petition. Each Free PDF opens in a new tab — EB-1A organises this into the structure USCIS applies to Criterion 5 of 8 CFR § 204.5(h)(3)(v); EB-1B re-frames it under § 204.5(i)(3) (outstanding researcher); NIW presents it under prong 2 of Matter of Dhanasar.

Citation independence

100% independent2 independent0 self0 co-author0 same-institution

Contribution 1

The researcher developed a novel electrochemical sensor for uric acid detection using doped ZnO/Ag2O/Co3O4 nanoparticles on glassy carbon electrodes, establishing a significant methodological advance in biosensing.

Core paper

Detection of uric acid based on doped ZnO/Ag2O/Co3O4 nanoparticle loaded glassy carbon electrode†

2019 · 176 citations

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