Msenhemba Mchihi | Physical Chemistry | Research Excellence Award

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Dr. Msenhemba Mchihi | Physical Chemistry | Research Excellence Award

Yaba College of Technology | Nigeria

Dr. Msenhemba Moses Mchihi is a physical chemist whose research focuses on corrosion inhibition, green chemistry, nanomaterials, electrochemistry, adsorption studies, and computational chemistry. His work centers on developing eco-friendly corrosion inhibitors derived from plant extracts, green-synthesized metal oxide nanoparticles, and nanocomposites for protecting mild steel and aluminum in acidic and alkaline environments. Through extensive electrochemical, gravimetric, spectroscopic, microscopic, gas chromatography, and density functional theory (DFT) analyses, he has contributed significantly to understanding the mechanisms, thermodynamics, and kinetics of corrosion inhibition using sustainable materials. His research also extends to adsorption studies involving heavy-metal removal from aqueous solutions using low-cost agricultural wastes such as coconut shell activated carbon and rice husk, highlighting his commitment to environmental remediation. Dr. Mchihi has authored numerous publications in reputable chemistry journals, including studies on CuO-based nanocomposites, plant-mediated zinc oxide nanoparticles, green inhibitors such as Ficus sur, Justicia schimperi, Annonamuricata, Bauhinia tomentosa, and mixtures of Codiaeum variegatum and Ficus benjamina. He has also contributed a chemistry textbook on mole concept and chemical calculations. His scholarly excellence has earned him distinctions such as the Best Staff Award of the Chemical Science Department at Yaba College of Technology and recognition from the University of Ibadan Postgraduate College. In addition to research, he has presented at multiple national and international scientific conferences and serves in administrative roles, including Examination Officer and Seminar Coordinator at Yaba College of Technology.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

1. Mchihi, M. M., Olatunde, A. M., & Odozi, N. W. (2025). Electrochemical and gravimetric studies of the corrosion inhibitory properties of green synthesized copper oxide nanoparticles mediated by Ficus sur for mild steel in HCl. Jordan Journal of Chemistry, 20(2), 81–93.

2. Mchihi, M. M., Odozi, N. W., & Odimuko, A. B. (2025). Deciphering properties of Dryopteris marginalis as green corrosion inhibitor for mild steel in HCl: Electrochemical, gas chromatography and DFT studies. Sustainable Chemistry One World, 7, 100103.

3. Mchihi, M. M., Olatunde, A. M., & Odozi, N. W. (2025). CuO-based nanocomposite: Synthesis, characterization, and evaluation of the corrosion inhibition effectiveness for mild steel in HCl. Journal of Electrochemical Science and Engineering, 15(4), 2715.

4. Mchihi, M. M., Odozi, N. W., Nurudeen, A. O., Emesiani, M. C., & Seriki, B. O. (2024). Assessment of Helianthus tuberosus leaves extract as eco-friendly corrosion inhibitor for aluminum in sodium hydroxide: Insights from electrochemical, gravimetry, and computational consideration. Moroccan Journal of Chemistry, 12(4), 1462–1483.

5. Odozi, N. W., Emesiani, M. C., Charles, C. D., Seriki, B. O., & Mchihi, M. M. (2024). Electrochemical studies of the corrosion inhibitory potential of Annona muricata leaves extract on aluminum in hydrochloric acid medium. FUDMA Journal of Sciences, 8(3), 395–401.

Zilin Zhong | Analytical Techniques | Research Excellence Award

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Dr. Zilin Zhong | Analytical Techniques | Research Excellence Award

Guangzhou Railway Polytechnic | China

Zhong Zilin is a researcher specializing in the dynamic stability of arch and plate structures, with expertise spanning structural mechanics, intelligent piezoelectric systems, artificial intelligence recognition, and vocational education. His work focuses on understanding and controlling nonlinear dynamic behaviors in arches and thin plates, particularly under multi-frequency, harmonic, and random excitations. He has led multiple research projects involving arch-shaped energy harvesters, nonlinear vibration energy acquisition in composite arches, active control of piezoelectric intelligent structures, and out-of-plane stability of high-strength steel arch bridges, while also contributing to national-level studies on dynamic stability under complex excitations. His publications cover analytical, numerical, and experimental investigations into parametric resonance, simultaneous resonance, and stochastic stability of arches and plates, including studies on concentrated masses, viscoelastic materials, and functional graded composite structures. In addition to journal papers, he has contributed patents and software related to structural vibration testing and railway-track monitoring technologies. Through his combined roles as a researcher and educator, he advances both theoretical understanding and practical engineering applications in structural dynamics and intelligent sensing for rail transit and civil infrastructure.

Profiles : Scopus | ORCID 

Featured Publications

Shen, F., Zhong, Z., Xu, X., Li, J., Dong, Q., & Deng, J. (2025). In-plane simultaneous resonance instability behaviors of a fixed arch under a two-frequency radial uniformly distributed excitation. International Journal of Non-Linear Mechanics, 174, 105056.

Zhong, Z., Liu, A., Guo, Y., Xu, X., Deng, J., & Yang, J. (2023). Sub-harmonic and simultaneous resonance instability of a thin-walled arch under a vertical base excitation at two frequencies. Thin-Walled Structures, 191, 111094.

Zhong, Z., Liu, A., Fu, J., Pi, Y.-L., Deng, J., & Xie, Z. (2021). Analytical and experimental studies on out-of-plane dynamic parametric instability of a circular arch under a vertical harmonic base excitation. Journal of Sound and Vibration, 500.

Zhong, Z., Liu, A., Pi, Y.-L., Deng, J., Fu, J., & Gao, W. (2021). In-plane dynamic instability of a shallow circular arch under a vertical-periodic uniformly distributed load along the arch axis. International Journal of Mechanical Sciences, 189, 105973.

Zhong, Z., Liu, A., Pi, Y.-L., Deng, J., Lu, H., & Li, S. (2019). Analytical and experimental studies on dynamic instability of simply supported rectangular plates with arbitrary concentrated masses. Engineering Structures, 196, 109288.

Syed Kashif Ali | Analytical Chemistry | Analytical Chemistry Award

Published on by Analytical Chemistry

Assoc. Prof. Dr. Syed Kashif Ali | Analytical Chemistry | Analytical Chemistry Award

Jazan University | Saudi Arabia

Dr. Syed Kashif Ali, Associate Professor of Analytical Chemistry at Jazan University, KSA, is a distinguished researcher with over 15 years of experience in analytical, green, and pharmaceutical chemistry. His work focuses on nanomaterials synthesis, electrochemical analysis, environmental remediation, and the application of medicinal plants, combining fundamental research with practical solutions for societal challenges. He has successfully led multiple funded projects, including the development of transition metal-based nanocomposites for supercapacitors and batteries, novel green potentiometric sensors, and electrochemical detection of wastewater pollutants. His research encompasses the photocatalytic degradation of organic contaminants, CO2 photoreduction, water purification, and design of hybrid supercapacitors, integrating advanced analytical techniques such as chromatographic, spectroscopic, and electrochemical methods. Dr. Ali’s work bridges experimental and computational approaches, employing molecular modeling, machine learning, and structure-based design to advance environmental and pharmaceutical applications. He has an extensive publication record in high-impact journals, reflecting his contributions to both fundamental science and applied chemistry. Additionally, he has mentored numerous undergraduate and postgraduate students, fostering the next generation of analytical chemists. His research exemplifies innovation, sustainability, and excellence in analytical methodologies, making him a leading figure in advancing green chemistry, nanotechnology, and environmental monitoring.

Profiles : Scopus | ORCID 

Featured Publications

  1. Syed Kashif Ali, et al. (2025). Bifunctional schiff base copper complex catalyst for environmental remediation and antibacterial mechanism via docking studies. Journal of Molecular Structure.

  2. Syed Kashif Ali, et al. (2025). Eco-friendly synthesis of benzoxazole substituted chromene containing benzene sulfonamide derivatives: Antibacterial activity and molecular docking. Journal of Molecular Structure.

  3. Syed Kashif Ali, et al. (2025). Biosynthesis of zinc oxide nanostructures using leaf extract of Azadirachta indica: Characterizations and in silico and nematicidal potentials. Catalysts, 15(7), 693.

  4. Syed Kashif Ali, et al. (2025). Enhanced photo-Fenton degradation of ciprofloxacin using novel CuO/gC3N4/MXene ternary nanocomposite: Synthesis, characterization and mechanistic insights. Ceramics International.

  5. Syed Kashif Ali, et al. (2025). Unleashing the potential of bifunctional electrocatalyst: Designing efficient Ni@MnS/SGCN nanocomposite for clean energy conversion. Journal of Industrial and Chemical Sciences.

 

Pandurangan Vijayalakshmi | Polymer Chemistry | Women Researcher Award

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Dr. Pandurangan Vijayalakshmi | Polymer Chemistry | Women Researcher Award

Department of Chemistry, Tamilnadu Open University | India

Dr. Vijayalakshmi P is an emerging researcher in environmental chemistry, nanomaterials, photocatalysis, and electrochemistry, with a strong publication record and interdisciplinary research experience. Her doctoral work focused on the design and synthesis of advanced semiconductor-based nanocomposites and their photocatalytic degradation efficiency toward hazardous organic pollutants, including antibiotics, pesticides, and dyes. She has developed a wide range of Z-scheme and heterojunction photocatalysts such as V₂O₅/g-C₃N₄/ZnO, Bi₂O₃/g-C₃N₄/ZnO, TiO₂/g-C₃N₄/CuFe₂O₄, and ZrO₂-based composites, demonstrating significant improvements in visible-light-driven degradation performance. Her research extends to energy storage materials, supercapacitors, electrochemical sensing, and CO₂ reduction, reflected in her contributions to high-impact journals including Ionics, ChemistrySelect, Electrochimica Acta, Langmuir, and Emergent Materials. She has also collaborated on studies involving nanostructures for sensing carbendazim, biocompatible nanoscaffolds, and spinels for antibacterial and dielectric applications. Skilled in multiple analytical and characterization techniques XRD, SEM, TEM, UV–Vis, PL, EIS. she integrates materials synthesis with mechanistic and kinetic studies to address real-world environmental challenges. Her international exposure includes a research internship at the National Taipei University of Technology. Recognized with the Visionary Research Scientist Award (2025), she continues to advance innovative solutions for environmental remediation and sustainable energy applications.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

  • Vijayalakshmi, P., Shanmugavelan, P., & Mareeswaran, P. M. (2024). Enhanced photocatalytic activity of V₂O₅/g-C₃N₄/ZnO nanocomposite for efficient degradation of amoxicillin, chlorpyrifos, and methylene blue. Ionics, 1–29.

  • Vijayalakshmi, P., Shanmugavelan, P., Anisree, S., & Mareeswaran, P. M. (2024). Enhanced visible-light Z-scheme photocatalytic degradation of amoxicillin, chlorpyrifos, and methylene blue by Bi₂O₃/g-C₃N₄/ZnO nanocomposite. Journal of Materials Research, 39(22), 3103–3125.

  • Vijayalakshmi, P., Shanmugavelan, P., Muthu Mareeswaran, P., Yuvakkumar, R., & Nehru, S. (2024). Visible-light photocatalytic activity of a novel TiO₂/g-C₃N₄/CuFe₂O₄ nanocomposite in degradation of amoxicillin, chlorpyrifos, and methylene blue. ChemistrySelect, 9(38), e202400943.

  • Vijayalakshmi, P., Shanmugavelan, P., Mareeswaran, P. M., & Kandasamy, K. (2024). Synthesis of novel ZrO₂/g-C₃N₄/CuFe₂O₄ nanocomposite and its efficient photocatalytic degradation of amoxicillin, chlorpyrifos, and methylene blue. Asian Journal of Chemistry, 36(3), 697–709.

  • Anisree, S., Shanmugavelan, P., Vijayalakshmi, P., Kishore, R., & Srivastava, N. (2024). Synthesis, characterization and anticancer screening of novel phenylbenzylidene thiosemicarbazone derivatives. Phosphorus, Sulfur, and Silicon and the Related Elements, 199(4), 267–276.

 

Wenkai Huang | Environmental Chemistry | Best Researcher Award

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Dr. Wenkai Huang | Environmental Chemistry | Best Researcher Award

University of Barcelona | Spain

Dr. Wenkai Huang is a dynamic early-career researcher in materials science and environmental chemistry, specializing in the design, synthesis, and application of advanced nanomaterials for sustainable energy and environmental remediation. His research focuses on carbon nanomaterials, transition-metal nanoparticles, and single-atom catalysts, with applications spanning hydrogen energy, catalytic conversion, and wastewater treatment. Wenkai has made significant contributions to the development of high-performance catalysts for controlled hydrogen generation, including innovative “on-off” switch catalytic systems for hydrazine, formic acid, ammonia borane, and related hydrogen-storage materials. His work has been published in leading journals such as International Journal of Hydrogen Energy, Fuel, ACS Applied Nano Materials, Carbon Energy, and Green Chemical Engineering, demonstrating both scientific rigor and originality. He has also advanced environmental catalysis through the synthesis of Co₃O₄ nanocubes and lignin-derived carbon materials for the degradation of emerging contaminants in wastewater, contributing to more efficient pollutant removal technologies. In addition to his journal publications, Wenkai is co-inventor on patents related to graphene quantum dots and porous carbon nanospheres, reflecting his strength in translating research into practical innovations. His academic journey from top-performing undergraduate at Lanzhou University of Technology, to postgraduate excellence at China Three Gorges University, to his current research at the University of Barcelona demonstrates consistent achievement supported by multiple competitive scholarships, including the China Scholarship Council award. Combined with earlier engineering experience in advanced aluminum materials, Wenkai brings strong interdisciplinary expertise to the advancement of clean energy catalysis and environmental nanotechnology.

Profiles : Scopus | ORCID

Featured Publications

Huang, W., Llopart-Roca, P., Nieto-Sandoval, J., Bayarri, B., & Sans, C. (2025). Enhanced peroxymonosulfate activation by oxalic acid–activated lignin-derived carbon to degrade sulfamethoxazole: Performance and mechanism. Green Chemical Engineering.

Xu, F., Wang, Y., Wang, C., Huang, W., & Liu, X. (2023). Dehydrogenation of hydrous hydrazine over carbon nanosphere-supported PtNi nanoparticles for on-demand H₂ release. Fuel, 332, 126116.

Huang, W., Xu, F., Li, D., Astruc, D., & Liu, X. (2023). “On–off” switch for H₂ and O₂ generation from HCOOH and H₂O₂. Carbon Energy, 5(3), e269.

Huang, W., Xu, F., Tian, S., Wang, C., & Liu, X. (2022). Bimetallic PtNi nanoclusters supported on carbon nanospheres as catalysts for H₂ production from dimethylamineborane hydrolysis. ACS Applied Nano Materials.

Huang, W., Jin, X., Li, Q., et al. (2023). Co₃O₄ nanocubes for degradation of oxytetracycline in wastewater via peroxymonosulfate activation. ACS Applied Nano Materials, 6(13), 12497–12506.

Mandla Bhuda | Environmental Chemistry | Research Excellence Award

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Dr. Mandla Bhuda | Environmental Chemistry | Research Excellence Award

University of South Africa | South Africa

Dr. Mandla Freddy Bhuda is an emerging leader in environmental and public health research, with a strong focus on air pollution exposure and its impacts on vulnerable populations in South Africa. His work is rooted in rigorous scientific inquiry, informed by extensive professional experience as an environmental health practitioner, occupational hygienist and municipal health services manager. Dr. Bhuda’s research provides critical evidence on the burden of indoor and outdoor air pollution in low-income communities, particularly its effects on preschool children. His peer-reviewed publications explore the relationships between pollution sources, particulate matter (PM2.5) composition, household fuel use, and adverse health outcomes such as asthma and atopic eczema. By combining epidemiological approaches with environmental monitoring, chemical analysis and atmospheric modelling, he has advanced understanding of pollution source attribution and health risk quantification in under-researched South African townships. His recent studies in Mabopane and Soshanguve offer novel insights into trace-element analysis and the geographic origins of polluted air masses findings with significant implications for local policy and targeted interventions. Dr. Bhuda has secured competitive funding from the National Research Foundation, Ninety-One Projects and the University of Pretoria for studies on air quality and child health, demonstrating research leadership and sustained academic impact. His work not only enriches scientific literature but also supports evidence-based public health planning, environmental governance and community protection initiatives. Through his contributions as a Senior Lecturer in Public Health, he continues to mentor emerging scholars while producing research that enhances understanding of environmental health risks and advances strategies to reduce pollution-related disease burdens in South Africa.

Profiles : Scopus | Google Scholar

Featured Publications

Bhuda, M., Wichmann, J., & Shirinde, J. (2024). Association between outdoor and indoor air pollution sources and atopic eczema among preschool children in South Africa. International Journal of Environmental Research and Public Health, 21(3).

Bhuda, M., Wichmann, J., & Shirinde, J. (2024). Household fuel use and severe asthma symptoms among preschool children in Gauteng province, South Africa: A cross-sectional study. BMJ Public Health, 2(2), e000938.

Bhuda, M., Molnár, P., Boman, J., Shirinde, J., & Wichmann, J. (2025). Health risks of atmospheric fine particulate matter (PM2.5) and its trace elements in Mabopane, South Africa. Environmental Quality Management, 35(2), e70189.

Bhuda, M., Molnár, P., Boman, J., Shirinde, J., & Wichmann, J. (2025). PM2.5 chemical composition and geographic origin of air masses in Mabopane, South Africa. X-Ray Spectrometry.

 

Ting Han | Organic Chemistry | Young Scientist Award

Published on by Analytical Chemistry

Assist. Prof. Dr. Ting Han | Organic Chemistry | Young Scientist Award

Texas Woman’s University | United States

Dr. Ting Han is a dynamic early-career scientist whose research spans organic synthesis, porphyrin chemistry, photocatalysis, functional materials, and molecular sensing technologies. He completed his Ph.D. in Organic Chemistry at the University of North Texas, where he specialized in macrocyclic compounds, cross-coupling reactions, and the synthesis of π-extended porphyrins and semiconductor-like 2D organic materials. With six years of combined teaching and research experience, Dr. Han has developed strong expertise in experimental design, analytical instrumentation, method development, and advanced spectroscopic techniques, including fluorescence, phosphorescence, transient absorption, and spectroelectrochemistry. His research accomplishments include designing and synthesizing over 20 novel organic molecules, developing new porphyrin-based photocatalysts for environmental remediation, and advancing biosensor technologies for detecting pollutants, biomolecules, and hazardous chemicals. Dr. Han has published 15 peer-reviewed articles in prominent journals such as Chemical Communications, Materials Chemistry Frontiers, Journal of Materials Chemistry B, Analyst, ACS Sensors, and Microchimica Acta, with a cumulative citation count of 294 and an H-index of 8. His innovative work also led to three granted Chinese patents in sensing and nanomaterial applications. In addition to his research, he is an experienced educator skilled in teaching General and Organic Chemistry, mentoring students, and designing laboratory and online learning experiences. After serving as a Visiting Lecturer at Texas Woman’s University, Dr. Han joined the institution as an Assistant Professor, where he continues building an active research group focused on functional organic materials, sustainable chemistry, and next-generation sensing platforms. His multidisciplinary expertise and impactful contributions reflect significant promise as a rising scientist in the field of organic and materials chemistry.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

  • Han, T., Starrett, N., Martin, K., Bueno Arroyo, J., Wang, S., & Rawashdeh-Omary, M. (in press). Green synthetic strategies for porphyrins: Toward sustainable functional macrocycles. ChemistrySelect.

  • Han, T., Wang, S., Salazar, G. A., & Rawashdeh-Omary, M. (2025). Porous porphyrin-based photocatalysts: Recent progress and applications in environmental remediation. Materials Chemistry Frontiers.

  • Han, T., Sharma, P., Khetrapal, N., & Wang, H. (2024). Conjugated porphyrin trimers linked through benzo[4,5]imidazo[2,1-a]isoindole bridges. Chemical Communications, 60(77), 10696–10699.

  • Han, T., Jang, Y., Arvidson, J., D’Souza, F., & Wang, H. (2022). Optical and photophysical properties of platinum benzoporphyrins with C2v and D2h symmetry. Journal of Porphyrins and Phthalocyanines, 26(6–7), 458–468.

  • Han, T., & Wang, G. (2019). Peroxidase-like activity of acetylcholine-based colorimetric detection of acetylcholinesterase activity and inhibitor organophosphorus. Journal of Materials Chemistry B, 7(16), 2613–2618.

 

Deepak Mohite | Materials Chemistry | Green Chemistry Award

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Mr. Deepak Mohite | Materials Chemistry | Green Chemistry Award

K.H. College Gargoti | India

Mr. Deepak Bandopant Mohite is an emerging material chemistry researcher whose work focuses on developing innovative and sustainable catalytic materials with strong relevance to green chemistry. He holds an M.Sc. in Organic Chemistry and has qualified for prestigious national examinations including CSIR-NET-JRF, SET, and GATE, reflecting his solid academic foundation. Currently, he is serving as an Assistant Professor of Chemistry at Karmaveer Hire Arts, Science, Commerce and Education College, Gargoti, affiliated with Shivaji University, Kolhapur, where he has gained two years of full-time teaching and research experience. Alongside his academic role, he is pursuing a Ph.D. at Shivaji University, Kolhapur. His doctoral research “Catalytic studies of titania-coated magnetic mixed metal oxide with interlayer alumina, zirconia, and silica” involves the design, synthesis, and characterization of advanced heterogeneous catalysts that are efficient, reusable, and environmentally benign. Mr. Mohite’s work aims to reduce the ecological footprint of chemical transformations by developing catalysts that offer high activity, selectivity, and recyclability while minimizing waste and energy consumption. His research integrates principles of green chemistry with material innovation, focusing on magnetic mixed metal oxides that can be easily recovered and reused, thereby supporting cleaner industrial processes. He has published his findings in the Journal of Molecular Structure (SCI/Scopus indexed), demonstrating the scientific merit and relevance of his work. Additionally, he holds a granted German patent, reflecting his capability to translate research ideas into applicable technological solutions. Through his contributions, Mr. Mohite is advancing sustainable material development and environmentally responsible catalysis with potential impact across chemical and industrial sectors.

Profile : Scopus

Featured Publication

Mohite, D. B., Pandhare, A. B., Chavan, A. S., Kadam, M. R., Nikam, P. N., Junghare, N. V., Ayyar, M., Rajendran, S., Khan, M. A., Delekar, S. D., Patil, R. P., Santhamoorthy, M., & Santhoshkumar, S. (2026). CoFe₂O₄–Al₂O₃–TiO₂ nanocatalyst: Magnetically retrievable platform for medicinal precursors. Journal of Molecular Structure, 1352(Part 2), 144521.

Abdel-Nasser Alaghaz | Inorganic Chemistry | Research Excellence Award

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Prof. Abdel-Nasser Alaghaz | Inorganic Chemistry | Research Excellence Award

Jazan University | Saudi Arabia

Dr. Abdel-Nasser M. A. Alaghaz is a distinguished Egyptian chemist and Professor of Inorganic and Analytical Chemistry at Al-Azhar University, with over two decades of dedicated academic and research experience. His research primarily focuses on coordination chemistry and phosphorus-containing ligands, with a particular emphasis on cyclodiphosph(V)azane derivatives and related compounds. Dr. Alaghaz has made significant contributions to the synthesis, characterization, and biological evaluation of transition metal complexes, including Co(II), Ni(II), Cu(II), and Pd(II). His work integrates detailed physicochemical analyses, such as thermal stability, electrical conductivity, and spectral characterization (IR, UV-Vis, NMR), to explore structure–property relationships. Many of his studies have investigated the correlation between molecular structure and biological activity, highlighting potential pharmaceutical applications and advancing the development of functional materials. Over the years, he has authored numerous high-impact publications in peer-reviewed journals, showcasing novel synthetic strategies and elucidating ligand–metal interactions. Beyond research, Dr. Alaghaz is a respected educator and mentor, guiding graduate and doctoral students, shaping curricula, and fostering scientific inquiry. His work bridges fundamental inorganic chemistry and applied bioinorganic research, influencing both academic and industrial practices. By combining theoretical insights with practical innovation, Dr. Alaghaz has significantly enriched the fields of inorganic synthesis, materials chemistry, and bioinorganic applications. His groundbreaking contributions and unwavering dedication make him a prominent figure in chemistry, inspiring future generations of scientists in Egypt and internationally.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

1. Siddiq, H. A., Alkhathami, N. D., Ageeli, A. A., Mousa, I., Alenazy, D. M., Alatawi, N. M., & Alaghaz, A.-N. M. A. (2025). Synthesis and quantum chemical calculations of nano‐sized metal (III/II) complexes of furan‐based Schiff base for promising therapeutic studies: Interaction with biomolecules, antioxidant activity, in vitro cytotoxicity, apoptotic activity, and cell cycle analysis. Applied Organometallic Chemistry.

2. Alenazy, D. M., Siddiq, H. A., Alatawi, N. M., Ageeli, A. A., Alkhathami, N. D., Mousa, I., & Alaghaz, A.-N. M. A. (2025). Synthesis, DFT, spectral characterization, cell cycle, apoptosis, cytotoxicity, DNA binding/cleavage, molecular docking, and antimicrobial insights of nano‐sized Pd (II) and Cu (II) complexes with benzothiazole‐appended ligand. Applied Organometallic Chemistry.

3. Alaghaz, A.-N. M. A., Hakami, O., Alamri, A. A., Amri, N., Souadi, G., & Aldulmani, S. A. (2025). Cell cycle arrest, apoptosis assay, cytotoxicity, molecular docking, DNA binding/cleavage, and biological evaluation of Pt(II), Ni(II), Pd(II), and Cu(II) nano‐sized complexes of 2‐(6-fluorobenzo[d]thiazol‐2‐yl)phenol: Design, synthesis, and spectral approach. Applied Organometallic Chemistry.

4. Mousa, I., Madkhali, M. M. M., Siddiq, H. A., Alaghaz, A.-N. M. A., Rezk, G. N., & El-Bindary, A. A. (2025). Synthesis, characterization, DFT calculations, and pharmacological activity of azo dye ligand and its Cu(II) complex comprising nitrogen and oxygen donor atoms. Applied Organometallic Chemistry.

5. Alkhathami, N. D., Alenazy, D. M., Mousa, I., Alatawi, N. M., Siddiq, H. A., Ageeli, A. A., & Alaghaz, A.-N. M. A. (2025). Design, synthesis, DFT, and biological evaluation of nano‐sized Pt(II) and Cu(II) complexes of 2‐(benzo[d]oxazol‐2‐yl)phenylphosphoramidic dichloride: Spectral analysis, cell cycle arrest, apoptosis assay, cytotoxicity, and DNA binding/cleavage. Applied Organometallic Chemistry.

Oumarou Savadogo | Electrochemistry | Research Excellence Award

Published on by Analytical Chemistry

Prof. Dr. Oumarou Savadogo | Electrochemistry | Research Excellence Award

Polytechnique Montreal | Canada

Professor Oumarou Savadogo is a distinguished researcher whose pioneering contributions span materials science, electrochemistry, and sustainable energy technologies. With advanced training in physics, materials engineering, and metallurgical engineering, he has dedicated his career to developing innovative materials and processes that advance clean and renewable energy systems. His expertise encompasses energy materials, solar photovoltaic and thermal technologies, electrochemical energy storage including batteries, fuel cells, and supercapacitors hydrogen production and utilization, biomaterials, corrosion science, and physico-chemical characterization of complex materials. As Chairholder of the UNESCO Chair in Sustainable Engineering: Applied Solar Technologies and Head of the Laboratory of New Materials for Energy and Electrochemistry, Professor Savadogo leads multidisciplinary programs focused on the design and optimization of advanced electrochemical materials. His research includes breakthroughs in oxygen cathode development for PEM fuel cells, new formalisms for understanding electrocatalytic reactions, and advanced simulation methods for adsorption–desorption processes. His work also extends to thin-film semiconductors for solar cells, corrosion-resistant coatings, nanostructured electrodes, conducting membranes, and biomaterial surface engineering demonstrating remarkable breadth and impact. Professor Savadogo’s scientific productivity is exceptional, with more than 180 peer-reviewed journal articles, influential book chapters, a 2024 book on nanostructured lithium-ion battery materials, and two foundational patents spanning biomedical implants and hydrogen fuel cell electrocatalysts. Recent publications highlight his leadership in emerging research areas, including techno-economic analyses of hydrogen production systems, bio-derived electrode materials for batteries, catalytic pathways for CO₂ reduction, molten carbonate fuel cells, and composite coatings with enhanced corrosion resistance. Beyond his research, Professor Savadogo serves the global scientific community through longstanding roles on advisory and editorial boards in electrochemical energy science and hydrogen technologies. His work continues to shape the future of sustainable energy materials, combining scientific rigor, innovation, and societal relevance. His contributions stand as a model of excellence in advancing technologies central to a low-carbon and sustainable global energy future.

Profiles : Scopus | Google Scholar

Featured Publications

1. Zemane, W.-W. A., & Savadogo, O. (2025). Electrochemical performances of Li-ion batteries based on LiFePO₄ cathodes supported by bio-sourced activated carbon from millet cob (MC) and water hyacinth (WH). Batteries, 11(10), 361.

2. Mihin, T., Savadogo, O., & Tartakovsky, B. (2025). Impact of non-noble bimetallic oxides on bioelectrochemical reduction of carbon dioxide to volatile fatty acids. Process Biochemistry, 159, 51–63.

3. Shanian, S., & Savadogo, O. (2024). A critical review of the techno-economic analysis of hydrogen production from water electrolysers using multi-criteria decision making (MCDM). Journal of New Materials for Electrochemical Systems, 27(2), 107–134.

4. Thiam, B., & Savadogo, O. (2024). Effects of silico-tungstic acid on the pseudocapacitive properties of manganese oxide for electrochemical capacitor applications. DeCarbon, Article 100066.

5. Shanian, S., & Savadogo, O. (2024). Techno-economic analysis of electrolytic hydrogen production by alkaline and PEM electrolysers using MCDM methods. Discover Energy, 4(1), 23. )