Minmin Yan | Nano Energy Materials | Research Excellence Award

Published on 20/01/2026 by MTE Awards

Assoc. Prof. Dr. Minmin Yan | Nano Energy Materials | Research Excellence Award

Associate Professor at Nanjing University of Science and Technology | China

Assoc. Prof. Dr. Minmin Yan, Associate Professor at Nanjing University of Science and Technology, excels in designing high-performance nano-catalysts for sustainable energy conversion. His work focuses on carbon-based single-atom catalysts and Pt-based intermetallic nanoparticles, addressing challenges in catalyst stability and oxygen utilization for water electrolysis, H₂O₂ synthesis, and hydrogen fuel cells. With over 25 Scopus-indexed publications in top journals (Nat. Commun., Adv. Mater., ACS Nano), 2,208 citations, and an h-index of 21, he has also secured multiple patents and international collaborations. His innovative contributions significantly advance green energy technologies, reflecting outstanding research excellence and global impact.

Citation Metrics (Scopus)

2500

1500

500

Citations
2,208

Documents
25

h-index
21

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Featured Publications

Graphene nanoarchitectonics: recent advances in graphene‐based electrocatalysts for hydrogen evolution reaction
– Advanced Materials 31 (48), 1903415, 2019, Citations: 437

Low‐Coordinated Co–N–C on Oxygenated Graphene for Efficient Electrocatalytic H2O2 Production
– Advanced Functional Materials 32 (5), 2106886, 2022, Citations: 199

Controllable synthesis of grain boundary-enriched Pt nanoworms decorated on graphitic carbon nanosheets for ultrahigh methanol oxidation catalytic activity
– Journal of Energy Chemistry 57, 601-609, 2021, Citations: 170

Sb2S3-templated synthesis of sulfur-doped Sb-N-C with hierarchical architecture and high metal loading for H2O2 electrosynthesis
– Nature Communications 14 (1), 368, 2023, Citations: 162

Edge-hosted Fe-N3 sites on a multiscale porous carbon framework combining high intrinsic activity with efficient mass transport for oxygen reduction
– Chem Catalysis 1 (6), 1291-1307, 2021, Citations: 158

Mudassir Hussain Tahir | Pyrolysis | Best Researcher Award

Published on 06/12/202506/12/2025 by MTE Awards

Dr. Mudassir Hussain Tahir | Pyrolysis | Best Researcher Award

Associate Professor at Nanjing Forestry University | China

Dr. Mudassir Hussain Tahir is a highly accomplished researcher whose prolific scientific contributions and multidisciplinary impact make him an exceptional candidate for the Best Researcher Award. With 2,411 citations, 119 peer-reviewed publications, and an impressive Scopus h-index of 27, he has established a strong global research footprint in biomass thermochemical conversion, catalytic pyrolysis, heterogeneous catalyst development, sustainable hydrogen-rich syngas production, CO₂ adsorption, bio-based chemical synthesis, and machine-learning-assisted materials discovery. His work has advanced fundamental understanding of pyrolysis kinetics, reactor design, catalyst–feedstock interactions, and waste-to-energy pathways, leading to high-value bio-oils, green chemicals, and sustainable aviation fuel precursors. He has published influential articles in leading journals such as Energy & Fuels, Bioresource Technology, Fuel, International Journal of Hydrogen Energy, Journal of Analytical and Applied Pyrolysis, ACS Omega, and Applied Thermal Engineering, covering both experimental innovation and computational materials design. His research also integrates advanced data-driven methodologies for designing organic semiconductors, dyes, polymers, and photovoltaic materials, positioning him at the frontier of clean energy materials research. In addition to his extensive publication record, he has served as Guest Editor and Review Editor for reputable journals, reflecting strong leadership and recognition within the scientific community. His contributions span renewable energy, waste valorization, catalysis, environmental sustainability, and predictive materials chemistry, demonstrating both depth and breadth in research excellence. Dr. Tahir’s sustained scholarly productivity, high citation impact, and transformative contributions to biomass energy and materials innovation exemplify the qualities of a distinguished and forward-thinking scientist, making him thoroughly deserving of the Best Researcher Award.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Müsellim, E., Tahir, M. H., Ahmad, M. S., & Ceylan, S. (2018). Thermokinetic and TG/DSC-FTIR study of pea waste biomass pyrolysis. Applied Thermal Engineering, 137, 54–61. Cited by 350

Mahmood, A., Khan, S. U. D., Rana, U. A., Janjua, M. R. S. A., Tahir, M. H., Nazar, M. F., … (2015). Effect of thiophene rings on UV/visible spectra and non-linear optical (NLO) properties of triphenylamine based dyes: A quantum chemical perspective. Journal of Physical Organic Chemistry, 28(6), 418–422. Cited by 137

Tahir, M. H., Çakman, G., Goldfarb, J. L., Topcu, Y., Naqvi, S. R., & Ceylan, S. (2019). Demonstrating the suitability of canola residue biomass to biofuel conversion via pyrolysis through reaction kinetics, thermodynamics and evolved gas analyses. Bioresource Technology, 279, 67–73. Cited by 136

Tahir, M. H., Zhao, Z., Ren, J., Rasool, T., & Naqvi, S. R. (2019). Thermo-kinetics and gaseous product analysis of banana peel pyrolysis for its bioenergy potential. Biomass and Bioenergy, 122, 193–201. Cited by 131

Mahmood, A., Tahir, M. H., Irfan, A., Al-Sehemi, A. G., & Al-Assiri, M. S. (2015). Heterocyclic azo dyes for dye sensitized solar cells: A quantum chemical study. Computational and Theoretical Chemistry, 1066, 94–99.Cited by 108

Tianjie Qiu | Electrochemical Energy | Editorial Board Member

Published on 17/11/202517/11/2025 by MTE Awards

Dr. Tianjie Qiu | Electrochemical Energy | Editorial Board Member

Research Assistant at Peking University | China

Dr. Tianjie Qiu is an emerging leader in advanced materials research, distinguished by 2,075 citations, 25 Scopus-indexed publications, and an h-index of 17, reflecting strong global impact in electrocatalysis and energy storage. His work focuses on rationally engineered ruthenium-based nanocomposites derived from metal-organic frameworks, enabling highly porous structures with exceptional hydrogen and oxygen evolution activity for efficient water splitting. Through innovative alloy modulation, heterostructure formation, and confinement within B/N co-doped carbon nanotubes, he has advanced fundamental understanding of catalytic mechanisms, validated through rigorous experimental–theoretical correlation. His ESI Highly Cited Papers in leading journals such as Nano Energy, ACS Energy Letters, and Angewandte Chemie highlight the significance of his discoveries in tuning active sites, optimizing charge transport pathways, and enhancing catalytic durability. In parallel, he has made notable contributions to potassium-ion battery development by constructing nitrogen-doped microporous carbon superstructures derived from MOF precursors, elucidating adsorption energetics, multi-element doping effects, and structure-driven ion storage enhancements. His work integrates materials design, structural analysis, and electrochemical modeling to deliver high-capacity, high-rate anode systems. Additionally, his influential reviews on MOF-derived materials and graphene-based systems have served as authoritative resources for the broader research community. Dr. Qiu’s consistent high-impact outputs, cross-disciplinary expertise, and ability to bridge nanoscale design with practical energy applications establish him as a strong and deserving candidate for the Editorial Board Member.

Profiles : Scopus | Google Scholar

Featured Publications

Liang, Z., Zhao, R., Qiu, T., Zou, R., & Xu, Q. (2019). Metal-organic framework-derived materials for electrochemical energy applications. EnergyChem, 1(1), 100001. (Cited by: 532)

Qiu, T., Liang, Z., Guo, W., Tabassum, H., Gao, S., & Zou, R. (2020). Metal–organic framework-based materials for energy conversion and storage. ACS Energy Letters, 5(2), 520–532. (Cited by: 488)

Wang, D. G., Qiu, T., Guo, W., Liang, Z., Tabassum, H., Xia, D., & Zou, R. (2021). Covalent organic framework-based materials for energy applications. Energy & Environmental Science, 14(2), 688–728. (Cited by: 351)

Qiu, T., Gao, S., Liang, Z., Wang, D. G., Tabassum, H., Zhong, R., & Zou, R. (2021). Pristine hollow metal–organic frameworks: Design, synthesis and application. Angewandte Chemie International Edition, 60(32), 17314–17336. (Cited by: 219)

Qiu, T., Liang, Z., Guo, W., Gao, S., Qu, C., Tabassum, H., Zhang, H., Zhu, B., & Zou, R. (2019). Highly exposed ruthenium-based electrocatalysts from bimetallic metal-organic frameworks for overall water splitting. Nano Energy, 58, 1–10. (Cited by: 217)