Wei Liu | Electronics Cooling | Best Researcher Award

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Mr. Wei Liu | Electronics Cooling | Best Researcher Award

Associate Professor at Inner Mongolia University | China

Mr. Wei Liu is a dedicated researcher whose work focuses on the hydro-mechanical behavior of loess, unsaturated soil mechanics, and geotechnical hazard mitigation, supported by 239 citations, 29 publications, and an h-index of 8 in his Scopus research profile. His studies encompass the effects of pre-dynamic loading, strong seismic events, and long-term earthquake influences on loess structure, addressing how these factors alter hydraulic properties, liquefaction potential, suction stress, and microstructural evolution. Through systematic laboratory investigations, he has analyzed variations in hydraulic behavior with soil depth, the influence of lignin content and mixing methods on unsaturated loess, and the mechanisms of rainfall- and irrigation-driven landslides, providing valuable frameworks for predicting slope failure in regions where loess is predominant. His work also integrates microstructural characterization to explain mechanical responses under dynamic and static loading, offering practical insights for disaster prevention in earthquake-prone environments. Additionally, Dr. Liu has contributed to advancing knowledge on expansive clay behavior through experimental studies on chemical factors affecting swelling and shear strength, illustrating his versatility across geotechnical material systems. His research on root–soil composite reinforcement for slope stabilization in mining areas demonstrates a commitment to environmentally aligned engineering solutions. Across his publications, Dr. Liu combines experimental precision with applied relevance, producing impactful findings that enhance understanding of soil response mechanisms and inform safer geotechnical design practices. His sustained contributions reflect strong scholarly merit and make him a compelling candidate for recognition through the Best Researcher Award.

Profiles : Scopus | Google Scholar

Featured Publications

King, A. M. Q., Lefkowitz, E., Adams, M. J., & Carstens, E. B. (2011). Virus taxonomy: Ninth report of the International Committee on Taxonomy of Viruses. Elsevier. Cited by: 4012

Owen, D. R., Allerton, C. M. N., Anderson, A. S., Aschenbrenner, L., Avery, M., et al. (2021). An oral SARS-CoV-2 Mpro inhibitor clinical candidate for the treatment of COVID-19. Science, 374(6575), 1586–1593. Cited by: 2030

Shen, B., Yi, X., Sun, Y., Bi, X., Du, J., Zhang, C., Quan, S., Zhang, F., Sun, R., Qian, L., et al. (2020). Proteomic and metabolomic characterization of COVID-19 patient sera. Cell, 182(1), 59–72. Cited by: 1581

Goldman, N., Chen, M., Fujita, T., Xu, Q., Peng, W., Liu, W., Jensen, T. K., Pei, Y., et al. (2010). Adenosine A1 receptors mediate local anti-nociceptive effects of acupuncture. Nature Neuroscience, 13(7), 883–888. Cited by: 1077

Liu, W., Zhang, X., Li, Y., & Mohan, R. (2012). Robust optimization of intensity modulated proton therapy. Medical Physics, 39(2), 1079–1091. Cited by: 449

Yanhong Wang | Wear Resistant Coating | Best Researcher Award

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Ms. Yanhong Wang | Wear Resistant Coating | Best Researcher Award

University of Science and Technology Beijing | China

Yanhong Wang is a metallurgical engineering researcher specializing in wear-resistant coatings for steel substrates, with a focus on advancing long-life materials that support low-carbon industrial transformation. Her work emphasizes the design, preparation, and performance optimization of coatings that enhance abrasion resistance under severe service conditions. Through her Scopus-indexed publication, “A Review of Wear-Resistant Coatings for Steel Substrates: Applications and Challenges” in Metals (2025), she provides a comprehensive assessment of coating technologies including thermal spray processes, laser cladding, chemical and physical vapor deposition, and emerging hybrid approaches. ORCID currently indexes 1 research document and an h-index of 1, reflecting her growing scholarly influence. Her research highlights the interplay between coating microstructure, bonding mechanisms, mechanical performance, and environmental durability, identifying key factors that determine coating reliability in high-wear environments. By analyzing failure modes, synergistic strengthening strategies, and the compatibility of coating materials with steel substrates, she contributes essential insights for designing next-generation protective layers. Her work also evaluates industrial applicability, cost-effectiveness, and the sustainability benefits of durable surface engineering solutions, positioning her research within the broader goals of carbon neutrality and reduced resource consumption. Through systematic knowledge integration, she provides valuable guidance for future research directions and industrial innovation in metallurgical coatings.

Profile : ORCID

Featured Publication

Wang, Y., Feng, C., Lin, T., Zhu, R., Zhang, J., Yang, H., Yi, S., He, J., Tu, M., & Wei, G. (2025). A review of wear-resistant coatings for steel substrates: Applications and challenges. Metals.

 

 

M. Sasikala | Nanostructured Materials | Editorial Board Member

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Prof. Dr. M. Sasikala | Nanostructured Materials | Editorial Board Member

Professor and Head at Karpagam College of Pharmacy | India

Prof. Dr. M. Sasikala is a distinguished researcher in Pharmaceutical Analysis, recognized for her extensive contributions to analytical method development, phytochemical investigations, and anticancer drug discovery, with strong expertise in spectroscopic, chromatographic, and bioanalytical techniques. Her work on medicinal plants such as Ipomoea aquatica, Peristylus goodyeroides, and Eugenia jambolana has generated impactful insights into antioxidant, antimicrobial, and anticancer properties, along with the development of nanoparticle-based therapeutic systems and in-silico docking models that support modern drug design. With 34 citations, 9 Scopus-indexed documents, and an h-index of 3, she demonstrates consistent scholarly relevance, further strengthened by an extensive publication portfolio that includes peer-reviewed articles, book chapters, and patents. Her experience as a reviewer and editor for international journals highlights her capability to critically evaluate scientific manuscripts across pharmaceutical and analytical sciences. She has also contributed to scientific development through research presentations, organization of academic programs, and supervision of student research projects focused on analytical instrumentation and natural product chemistry. With her strong academic judgment, demonstrated research productivity, and editorial experience, Dr. Sasikala is highly suitable for the position of Editorial Board Member, bringing depth of expertise and a commitment to advancing high-quality scholarly publishing.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Sasikala, M., & Sundaraganapathy, R. (2017). Qualitative analysis of alkaloids exist in the hydroalcoholic extract of Ipomoea aquatica Forssk. in Tamil Nadu. International Journal of ChemTech Research, 10(7), 446–454. Cited by: 15

Samala, A., Sowmya, M., Sasikala, M., & Chatlapelli, K. (2014). Development and validation of RP-HPLC method for the estimation of ropinirole hydrochloride in tablet dosage forms. Journal of Chemical and Pharmaceutical Research, 6(3), 1178–1182. Cited by: 11

Subba Rao, A., Ramachandra Prasad, V., Rajendra, P., Sasikala, M., & Others. (2017). Numerical study of non-Newtonian polymeric boundary layer flow and heat transfer from a permeable horizontal isothermal cylinder. Frontiers in Heat and Mass Transfer, 9(1). Cited by: 10

Sasikala, M., Sundaraganapathy, R., & Mohan, S. (2020). MTT assay on anticancer properties of phytoconstituents from Ipomoea aquatica Forsskal using MCF-7 cell lines for breast cancer in women. Research Journal of Pharmacy and Technology, 13(3), 1356–1360. Cited by: 8

Kishore Konam, A., Soujanya, J., & Sasikala, M. (2013). Development and validation of RP-HPLC method for the determination of bisoprolol fumarate tablets. International Journal of Research in Pharmaceutical and Nano Sciences, 2(1). Cited by: 8

Gajanan Dattarao Surywanshi | Life Cycle Assessment | Editorial Board Member

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Dr. Gajanan Dattarao Surywanshi | Life Cycle Assessment | Editorial Board Member

Researcher at Research Institute of Sweden | Sweden

Dr. Gajanan Dattarao Surywanshi is an accomplished researcher with strong expertise in advanced process simulations, chemical-looping combustion, carbon capture, negative-emission technologies, and thermochemical energy systems. His research integrates Aspen Plus modeling, techno-economic assessment, and life cycle analysis to develop energy-efficient and environmentally sustainable solutions for next-generation power, heat, and fuel production. With a proven publication record reflected in 245 citations, 12 Scopus-indexed documents, and an h-index of 9, he has consistently contributed impactful work to high-quality journals including Applied Energy, Energy Technology, Fuel Processing Technology, and the Journal of Environmental Chemical Engineering. His contributions encompass modeling of chemical-looping combustion plants, CO₂ utilization pathways, multigeneration systems, and biogenic residue gasification, addressing global priorities in clean energy and carbon-negative technologies. Beyond publications, his involvement in collaborative EU-funded and industrial research projects demonstrates his strong capacity for interdisciplinary teamwork and scientific leadership. His patented innovation-a multiphase continuous-flow microreactor for process intensification-highlights his ability to translate research insights into practical engineering advancements. With experience in supervising students, conducting complex simulations, and executing full-cycle research activities from conceptualization to evaluation, he brings a comprehensive understanding of both scientific depth and practical relevance. His balanced academic rigor, analytical strength, and proven research impact make him highly suitable for an Editorial Board Member role, where his ability to critically evaluate manuscripts, identify emerging research trends, and uphold high scholarly standards would significantly contribute to the advancement of scientific publishing.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Surywanshi, G. D., Pillai, B. B. K., Patnaikuni, V. S., Vooradi, R., & Anne, S. B. (2019). 4-E analyses of chemical looping combustion based subcritical, supercritical and ultra-supercritical coal-fired power plants. Energy Conversion and Management. Cited by: 60

Sikarwar, S. S., Surywanshi, G. D., Patnaikuni, V. S., & others. (2020). Chemical looping combustion integrated Organic Rankine Cycled biomass-fired power plant – Energy and exergy analyses. Renewable Energy. Cited by: 55

Pillai, B. B. K., Surywanshi, G. D., Patnaikuni, V. S., Anne, S. B., & Vooradi, R. (2019). Performance analysis of a double calcium looping-integrated biomass-fired power plant: Exploring a carbon reduction opportunity. International Journal of Energy Research. Cited by: 33

Surywanshi, G. D., Patnaikuni, V. S., Vooradi, R., & Anne, S. B. (2021). 4-E and life cycle analyses of a supercritical coal direct chemical looping combustion power plant with hydrogen and power co-generation. Energy. Cited by: 31

Surywanshi, G. D., Patnaikuni, V. S., Vooradi, R., & Kakunuri, M. (2021). CO₂ capture and utilization from supercritical coal direct chemical looping combustion power plant – comprehensive analysis of different case studies. Applied Energy. Cited by: 24

Vladimir Tsepelev | Melts at High Temperatures | Editorial Board Member

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Prof. Dr. Vladimir Tsepelev | Melts at High Temperatures | Editorial Board Member

Director at Ural Federal University | Russia

Prof. Dr. Tsepelev Vladimir is a highly accomplished metallurgical engineering researcher whose strong academic influence makes him well-suited for the role of Editorial Board Member. With 592 citations, 171 publications, and an h-index of 12 in Scopus, his profile demonstrates sustained research impact across key domains of materials science. His work spans the physical properties of liquid metals at high temperatures, the development of amorphous and nanocrystalline soft magnetic materials, and innovative amorphous high-entropy solders, contributing significantly to advanced material technologies. He has also made notable contributions to environment-friendly metallurgy, including waste recycling, renewable-energy-aligned materials, and sustainable manufacturing processes, aligning with global scientific priorities. His research influence is further strengthened by his extensive contributions to composite materials and high-performance metallurgical processes. Recognized by national and international scientific bodies, his academic honors and leadership roles reflect his expertise, credibility, and ability to evaluate scientific work with rigor and objectivity. His international standing, including honorary positions at major institutions, demonstrates his global perspective and reinforces his suitability for editorial responsibilities. Overall, his strong publication record, citation impact, and wide-ranging research contributions make him an excellent candidate for serving as an Editorial Board Member.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Tsepelev, V., Konashkov, V., Starodubtsev, Y., Belozerov, V., & Gaipishevarov, D. (2012). Optimum regime of heat treatment of soft magnetic amorphous materials. IEEE Transactions on Magnetics, 48(4), 1327–1330. Cited by: 42

Tsepelev, V. S., & Starodubtsev, Y. N. (2021). Nanocrystalline soft magnetic iron-based materials from liquid state to ready product. Nanomaterials, 11(1), 108. Cited by: 39

Tabachnikova, E. D., Bengus, V. Z., Egorov, D. V., Tsepelev, V. S., & Ocelík, V. (1997). Mechanical properties of amorphous alloys ribbons prepared by rapid quenching of the melt after different thermal treatments before quenching. Materials Science and Engineering A, 226, 887–890. Cited by: 37

Tyagunov, G. V., Tsepelev, V. S., Kushnir, M. N., & Yakovlev, G. N. (1980). Unit for measurement of the kinematic viscosity of metallic melts. Zavodskaya Laboratoriya, 10, 919–920. Cited by: 31

Chikova, O. A., Nikitin, K. V., Moskovskikh, O. P., & Tsepelev, V. S. (2016). Viscosity and electrical conductivity of liquid hypereutectic alloys Al–Si. Technical University of Kosice, Faculty of Metallurgy, 22(3), 153–163. Cited by: 28

 

Tianjie Qiu | Electrochemical Energy | Editorial Board Member

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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)

 

Vijayarajkumar Palanirajan | Pharmaceutical Technology | Excellence in Research Award

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Prof. Vijayarajkumar Palanirajan | Pharmaceutical Technology | Excellence in Research Award

Professor at UCSI University | Malaysia

Prof. Palanirajan Vijayarajkumar is a leading researcher in pharmaceutical sciences whose work has consistently advanced the frontiers of nanomedicine, targeted drug delivery, and biomaterial-based therapeutic systems, reflected by 2,103 Scopus citations, 92 indexed publications, and an h-index of 20. His research focuses on engineering dendrimeric nanostructures, PEGylated carriers, lipid-based nanoparticles, β-cyclodextrin inclusion complexes, gold nanoplatforms, and chitosan-mediated delivery systems to address challenges in solubility, stability, bioavailability, and targeted action of complex bioactive molecules. He has made substantial contributions to cancer nanotherapeutics, peptide-based vaccines, wound-healing biomaterials, antiviral and antibacterial nano-systems, and mucoadhesive oral formulations. His expertise spans computational modeling, nanoparticle engineering, characterization, and biologically relevant evaluations to design systems capable of enhanced cellular uptake, sustained release, and improved therapeutic efficacy. As main or corresponding author in many Q1 and Q2 journals, he has produced impactful research on polymeric conjugates, recombinant growth factor carriers, nanolipid systems, controlled-release oral dosage forms, and molecular interaction studies. His patents on nanoparticle-based therapeutics and peptide vaccines underscore the translational relevance of his work. Alongside extensive postgraduate mentoring and leadership in funded research, his scientific output continues to influence modern pharmaceutical technology and applied nanoscience. His strong publication record, citation impact, and innovative contributions establish him as an outstanding candidate for recognition under the Excellence in Research Award.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Tekade, R. K., Kumar, P. V., & Jain, N. K. (2009). Dendrimers in oncology: An expanding horizon. Chemical Reviews, 109(1), 49–87. Cited by: 599

Nahar, M., Dutta, T., Murugesan, S., Asthana, A., Mishra, D., Rajkumar, V., … (2006). Functional polymeric nanoparticles: An efficient and promising tool for active delivery of bioactives. Critical Reviews in Therapeutic Drug Carrier Systems, 23(4). Cited by: 271

Kumar, P. V., Asthana, A., Dutta, T., & Jain, N. K. (2006). Intracellular macrophage uptake of rifampicin loaded mannosylated dendrimers. Journal of Drug Targeting, 14(8), 546–556. Cited by: 266

Selvam, T. P., & Kumar, P. V. (2015). Quinazoline marketed drugs. Research in Pharmacy, 1(1). Cited by: 239

Gajbhiye, V., Palanirajan, V. K., Tekade, R. K., & Jain, N. K. (2009). Dendrimers as therapeutic agents: A systematic review. Journal of Pharmacy and Pharmacology, 61(8), 989–1003. Cited by: 234

Zhi Zong | Computational Mechanics | Best Researcher Award

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Prof. Dr. Zhi Zong | Computational Mechanics | Best Researcher Award

Professor at Fuyao University of Science and Technology | China

Prof. Dr. Zhi Zong is a leading researcher whose work integrates structural mechanics, fluid dynamics, computational modeling, and probabilistic engineering to advance the understanding of complex marine and mechanical systems. With 5,620 citations, 334 research documents, and a Scopus h-index of 38, his publications demonstrate both volume and influence within international scientific communities. His contributions include formulating high-accuracy Differential Quadrature (DQ) computational methods, such as localized, complex, and variable-order DQ techniques, which have improved the numerical simulation capabilities used in ocean engineering, ship mechanics, and structural analysis. He has made pioneering advances in uncertainty quantification, notably by identifying the variability of ship structural vibrations caused by geometric imperfections and by developing an asymptotically unbiased entropy estimator for probability distribution modeling-an outcome that has strengthened probabilistic mechanics applications. His Random Pore Model for sea ice represents an important development in capturing realistic mechanical and physical behaviors of ice, contributing to engineering design, climate studies, and environmental modeling. Beyond these theoretical achievements, Professor Zong has authored over 230 SCI-indexed papers and several specialized monographs addressing complex topics such as underwater explosion modeling, isolated water waves, and bubble dynamics. His research has been incorporated into practical marine engineering solutions and serves as a foundation for ongoing advancements in computational methods and ocean systems design. His body of work demonstrates consistent innovation, scientific rigor, and global relevance, making him a strong candidate for recognition under the Best Researcher Award.

Profiles : Scopus | Google Scholar

Featured Publications

Liu, M. B., Liu, G. R., Lam, K. Y., & Zong, Z. (2003). Smoothed particle hydrodynamics for numerical simulation of underwater explosion. Computational Mechanics, 30(2), 106–118. Cited by: 370.

Liu, M. B., Liu, G. R., Zong, Z., & Lam, K. Y. (2003). Computer simulation of high explosive explosion using smoothed particle hydrodynamics methodology. Computers & Fluids, 32(3), 305–322. Cited by: 324.

Zong, Z., & Zhang, Y. (2009). Advanced differential quadrature methods. Chapman and Hall/CRC. Cited by: 259.

Chen, Z., Zong, Z., Liu, M. B., Zou, L., Li, H. T., & Shu, C. (2015). An SPH model for multiphase flows with complex interfaces and large density differences. Journal of Computational Physics, 283, 169–188. Cited by: 257.

Zhang, Y. Y., Wang, C. M., Duan, W. H., Xiang, Y., & Zong, Z. (2009). Assessment of continuum mechanics models in predicting buckling strains of single-walled carbon nanotubes. Nanotechnology, 20(39), 395707. Cited by: 155.

 

 

Nashwan Ali | Electrochemical Sensor | Editorial Board Member

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Assist. Prof. Dr. Nashwan Ali | Electrochemical Sensor | Editorial Board Member

Research Scientist at University of Samarra | France

Assist. Prof. Dr. Nashwan Ali is a highly capable and multidisciplinary researcher whose strong expertise in electrochemistry, analytical chemistry, and advanced material characterization positions him as an excellent candidate for an Editorial Board Member role. His research spans electrochemical activity mapping, electrocatalysis, electroanalysis, green analytical methodologies, and spectrophotometric innovations, with applications across pharmaceuticals, environmental monitoring, petroleum chemistry, nanomaterials, and water quality assessment. His publication portfolio demonstrates consistent scientific productivity, contributing 13 indexed documents with 40 citations and an h-index of 4 in Scopus, reflecting steady scholarly influence and research visibility. Dr. Ali has co-authored impactful studies on ion-selective electrodes, oxidative coupling reactions, metal ion detection, nanoparticle-assisted sensing, composite materials, and electrochemical screening of Pt–CeO₂ gradient films, published across reputable journals including Sensors, Macromolecular Symposia, AIP Conference Proceedings, and International Journal of Advanced Chemical Research. His collaborative international work, particularly on electrocatalytic films and high-performance electrochemical sensors, showcases his ability to integrate analytical science with materials engineering-an essential quality for editorial decision-making in multidisciplinary domains. His experience supervising electrochemical mapping and developing green, cost-efficient determination techniques highlights his commitment to sustainable scientific approaches. Dr. Ali’s broad methodological command-ranging from cyclic voltammetry and SECM to HPLC, GC-FID, UV-Vis spectroscopy, and nanoparticle-based assays-equips him with the critical evaluation skills required to assess complex manuscripts. His research breadth, publication quality, and demonstrated peer-reviewed contributions make him highly suitable for an Editorial Board position, where analytical expertise, scientific judgment, and cross-disciplinary insight are essential.

Profiles : Scopus | ORCID

Featured Publications

Guesmi, S., Ali, N. H., Missaoui, N., Aloui, Z., Mabrouk, C., Martinez, C. C., Echouchene, F., Barhoumi, H., Jaffrezic-Renault, N., & Kahri, H. (2025). High-performance ZIF-7@PANI electrochemical sensor for simultaneous trace cadmium and lead detection in water samples: A Box–Behnken design optimization approach. Sensors.

Dawood, N. H., & Ali, N. H. (2022). Spectrophotometric determination of captopril in pharmaceutical formulations based on ion-pair reaction with the Red Congo. Journal of Pharmaceutical Negative Results.

Dawood, N. H., & Ali, N. H. (2022). Synthesis and characterization of some new indazolone and carbohydrazide derivatives from azachalcones. Journal of Pharmaceutical Negative Results.

Ali, N. H., Khalaf, A. A., Imran, N. A., Abdul Sattar, O. D., Ismail, M. K., & Ibrahim, A. T. (2020). Determination of loperamide HCl in pharmaceutical preparations using modified ion selective electrode. Systematic Reviews in Pharmacy.

Asker, M. M., Hassan, O. S., & Ali, N. H. (2020). Determination of metoclopramide in pharmaceutical commercial using flow injection chemiluminescence technique. Systematic Reviews in Pharmacy.

Hamza Kahri | Porous Materials | Editorial Board Member

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Dr. Hamza Kahri | Porous Materials | Editorial Board Member

Senior Research Scientist at Poitiers University | France

Dr. Hamza Kahri is a materials chemist whose research integrates metal–organic frameworks (MOFs), nanomaterials, electrochemistry, and catalytic hydrogen generation, with a strong focus on sustainable energy applications. His work centers on designing and optimizing advanced nanostructured catalysts for hydrogen production from chemical hydrides, water splitting, and biomass-derived substrates, contributing to cleaner and more efficient energy conversion pathways. He has developed high-surface-area MOFs such as ZIF-8 and ZIF-67, as well as MOF-derived carbon and metal oxide composites, applying them to gas adsorption, pollutant removal, photocatalysis, and electrochemical sensing. In analytical electrochemistry, he has advanced MOF–polymer hybrids and bimetallic nanoparticle-based sensor platforms for the detection of heavy metals, glucose, dopamine, urea, and various environmental and biological analytes, demonstrating both methodological innovation and practical relevance. His publications appear in reputable journals including Nano Research, Separation and Purification Technology, Microporous and Mesoporous Materials, Electrochimica Acta, and the Journal of the Electrochemical Society, reflecting consistent scholarly contribution and citation visibility. With approximately 36 peer-reviewed publications and an estimated Scopus citation 569 with an h-index of 14 he has established a solid research footprint across materials chemistry, catalysis, and environmental engineering. Additionally, his role as a reviewer for high-impact journals in hydrogen energy, nanomaterials, and electrochemical engineering underscores his academic reliability and editorial-level judgment. Collectively, his interdisciplinary expertise, publication record, and reviewing experience position him as a strong and capable candidate for an Editorial Board Member role in journals aligned with materials science and sustainable energy research.

Profiles : Scopus | ORCID | Google Scholar

Featured Publication

Kahri, H., Sevim, M., & Metin, Ö. (2017). Enhanced catalytic activity of monodispersed AgPd alloy nanoparticles assembled on mesoporous graphitic carbon nitride for the hydrolytic dehydrogenation of ammonia borane. Nano Research, 10(5), 1627–1640.

Badri, A., Slimi, S., Guergueb, M., Kahri, H., & Mateos, X. (2021). Green synthesis of copper oxide nanoparticles using Prickly Pear peel fruit extract: Characterization and catalytic activity. Inorganic Chemistry Communications, 134, 109027.

Missaoui, N., Kahri, H., & Demirci, U. B. (2022). Rapid room-temperature synthesis and characterizations of high-surface-area nanoparticles of zeolitic imidazolate framework-8 (ZIF-8) for CO₂ and CH₄ adsorption. Journal of Materials Science, 57(34), 16245–16257.

Ahmadipour, M., Bhattacharya, A., Sarafbidabad, M., Sazali, E. S., Ghoshal, S. K., … & Kahri, H. (2024). CA19-9 and CEA biosensors in pancreatic cancer. Clinica Chimica Acta, 554, 117788.

Missaoui, M. A. N., Chrouda, A., Kahri, H., Gross, A. J., … & Mohammad (2023). PEG-templated synthesis of ultramicroporous n-ZIF-67 nanoparticles with high selectivity for the adsorption and uptake of CO₂ over CH₄ and N₂. Separation and Purification Technology.