Dr. Eugene Ayuk | Organic Synthesis | Editorial Board Member

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Dr. Eugene Ayuk | Organic Synthesis | Editorial Board Member

Senior Lecturer | Godfrey Okoye University | Nigeria

Dr. Eugene Ayuk is an accomplished organic and medicinal chemist whose research spans synthetic methodology, heterocyclic chemistry, phytochemical analysis, and the biological evaluation of novel therapeutic compounds. His work integrates organic synthesis with computational docking, antimicrobial screening, and structure–activity investigations to develop innovative phenothiazine derivatives, peptide-based molecules, and functionalized heterocycles with potential pharmaceutical relevance. He has made significant contributions to understanding heavy-metal contamination and antioxidant properties of foods and natural products, providing insights into environmental toxicology and public health. Dr. Ayuk’s research further explores phytochemicals, secondary metabolites, and bioactive extracts from indigenous plant species, contributing valuable data on their antimicrobial and antioxidant properties. His investigations into nanostructured materials, biological catalysts in organic synthesis, and tandem catalytic transformations highlight his multidisciplinary approach. He has published widely in reputable international journals, with a growing footprint in medicinal chemistry and computational drug-design studies. According to Google Scholar, he has accumulated 312 citations, an h-index of 7, and an i10-index of 4, reflecting the growing influence and visibility of his research. Scopus records 37 citations across 5 indexed documents with an h-index of 2, demonstrating measurable impact within the indexed scientific literature. His consistent scholarly output and collaborative scientific contributions position him as an emerging researcher dedicated to advancing synthetic chemistry, natural product chemistry, and medicinally relevant molecular design.

Profiles : Google Scholar | Scopus 

Featured Publications : 

  • Godwill, E. A., Jane, I. C., Scholastica, I. U., Marcellus, U., Eugene, A. L., & Gloria, O. A. (2015). Determination of some soft drink constituents and contamination by some heavy metals in Nigeria. Toxicology Reports, 2, 384–390.

  • Ayuk, E. L., Ugwu, M. O., & Aronimo, S. B. (2017). A review on synthetic methods of nanostructured materials. Chemistry Research Journal, 2(5), 97–123.

  • Unaegbu, M., Engwa, G. A., Abaa, Q. D., Aliozo, S. O., Ayuk, E. L., Osuji, G. A., … (2016). Heavy metal, nutrient and antioxidant status of selected fruit samples sold in Enugu, Nigeria. International Journal of Food Contamination, 3(1), 7.

  • Engwa, G. A., Ayuk, E. L., Igbojekwe, B. U., & Unaegbu, M. (2016). Potential antioxidant activity of new tetracyclic and pentacyclic nonlinear phenothiazine derivatives. Biochemistry Research International, 2016, 9896575.

  • Ayuk, E. L., Ilo, S. U., Njokunwogbu, A. N., Engwa, G. A., Oni, T. O., & Okoro, U. C. (2015). Synthesis and characterization of 6-(4-bromophenyl)-10-methyl-11-azabenzo[a]phenothiazin-5-one. International Journal of Materials and Chemistry, 5(2), 44–47.

Assoc. Prof. Dr. Zubair Anwar | Phrmaceutical Chemistry | Editorial Board Member

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Assoc. Prof. Dr. Zubair Anwar | Phrmaceutical Chemistry | Editorial Board Member

Deputy Director | Baqai Medical University | Pakistan

Assoc. Prof. Dr. Zubair Anwar is a leading researcher in Pharmaceutical Chemistry, recognized for his extensive contributions to drug stability, photochemistry, kinetic degradation studies, analytical method development, pharmaceutical formulations, and biopolymer-based drug-delivery systems. His research integrates experimental chemistry with computational modeling to explore photostabilization mechanisms, degradation pathways, and formulation optimization for small molecules and therapeutics. Dr. Anwar has authored 55 Scopus-indexed documents with 719 citations from 580 citing documents and holds an h-index of 12, reflecting the significant influence and continuity of his scholarly work within the pharmaceutical sciences community. His scientific outputs span advanced spectroscopic techniques, stability-indicating analytical procedures, polymeric delivery systems, periodontal drug-delivery devices, hydrogels, and cyclodextrin-assisted photostability enhancements. He has contributed to internationally indexed journals and book chapters covering drug degradation, excipient interactions, chitosan-based xerogels, periodontal implants, and computational kinetic modeling. Dr. Anwar’s recent work includes innovative biopolymer-based dental chips, PEGylated chitosan xerogels, and highly stable enzymatic hydrogels designed for wound-healing applications. His research consistently bridges fundamental pharmaceutical chemistry with applied therapeutics, leading to impactful publications, collaborative research outputs, and notable advancements in formulation science and drug-delivery technologies. In addition to publishing widely, he contributes as a peer reviewer for multiple reputable scientific journals, demonstrating his commitment to advancing quality, rigor, and innovation in pharmaceutical research. His body of work continues to influence drug-delivery design, analytical chemistry, and stability science across academia and industry.

Profiles : Scopus | Orcid

Featured Publications :

  • Afzal, S., Sheraz, M. A., Ahmed, S., Tariq, S., Kazi, S. H., Zafar, F., & Anwar, Z. (2025). Chitosan-based biodegradable dental chips impregnated with chlorhexidine gluconate for the treatment of periodontitis. RSC Pharmaceutics.

  • Khurshid, A., Anwar, Z., Usmani, M., Altaf, R., Awan, A., Akram, Z., Kazi, S. H., Ahmed, S., Sheraz, M. A., & Ahmad, I. (2025). Cyclodextrin-assisted photostabilization of 5-fluorouracil: A combined kinetic and computational investigation. RSC Advances.

  • Zafar, F., Sheraz, M. A., Ali, S. A., Riaz, M., Ahmed, S., & Anwar, Z. (2025). Novel antibiotic-loaded PEGylated xerogels of acidified chitosan for periodontal diseases. Current Drug Delivery.

  • Zia, S. Y., Ahmed, S., Jamal, H. S., Perveen, M., Sheraz, M. A., Anwar, Z., & Ali, S. A. (2025). Formulation development of highly stable collagenase-containing hydrogels for wound healing. Journal of Pharmaceutical Sciences.

  • Zafar, F., Sheraz, M. A., Ali, S. A., Riaz, M., Ahmed, S., Kazi, S. H., Tariq, S., & Anwar, Z. (2025). PEGylated chitosan xerogels for localized periodontal therapy: Design, characterization, and drug release. Scientific Reports.

Mr. Taanashe Simon Gahadza | Synthesis | Editorial Board Member

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Mr. Taanashe Simon Gahadza | Synthesis | Editorial Board Member

Zen Oil Products (PYT) Ltd | South Africa

Mr. Taanashe Simon Gahadza is an emerging chemist whose work integrates formulation chemistry, process development, analytical evaluation, and quality assurance to address practical industrial and environmental challenges. His research interests span chemical technology, pesticide residue analysis, laboratory management systems, and sustainable product development. He has developed hands-on expertise in laboratory testing, method validation, chemical formulation, and quality control for manufacturing processes. His academic and applied research reflects a strong commitment to precision, safety, and problem-solving, with a particular focus on ensuring product integrity and environmental protection through analytical assessments. His work on chlorpyrifos residue evaluation highlights his dedication to public health and agricultural safety, contributing valuable data to support regulation, risk assessment, and food-quality monitoring. Professionally, he has actively engaged in scientific communities, maintaining memberships in reputable chemical societies that support continuous learning and global professional exchange. His research foundation continues to grow through his involvement in chemistry-focused organizations, enabling him to stay updated on advances in chemical sciences. He has produced scientific work supported by proper documentation, laboratory records, and data validation, with developing citation visibility across academic platforms. His Google Scholar and Scopus profiles reflect early-stage citation activity, with scope for increasing scholarly influence as he expands his research outputs, collaborations, and publications. His contributions reflect a motivated chemist committed to strengthening industrial chemistry practices while advancing applied research in chemical analysis, formulation science, and process optimization.

Profile : Orcid

Featured Publication :

Gahadza, T. S. (2023). Evaluation of chlorpyrifos pesticide residues in sugarcane juice and growing soil. Bindura University of Science Education.

Dr. Jinsheng Huang | Environmental Nanotechnology | Editorial Board Member

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Dr. Jinsheng Huang | Environmental Nanotechnology | Editorial Board Member

Postdoc researcher | Florida International University | United States

Dr. Jinsheng Huang is an emerging researcher whose work bridges agricultural and biological engineering, environmental chemistry, and sustainable water treatment technologies, with a strong publication record recognized across major citation platforms. His research focuses primarily on advanced biochar engineering, hydrothermal carbonization, adsorption–photocatalytic hybrid systems, antibiotic and dye removal, heavy-metal stabilization, microplastic interactions, and remediation processes that support clean water, soil health, and circular bioresource utilization. He has authored 22 peer-reviewed documents that collectively demonstrate strong and growing impact, reflected in 2,435 Google Scholar citations (h-index 15, i10-index 16) and 2,095 Scopus citations across 1,960 citing documents (h-index 15). His work often integrates materials science, surface chemistry, and mechanistic environmental processes to develop multifunctional carbon-based materials capable of adsorbing and degrading emerging contaminants such as pharmaceuticals, dyes, and microplastics under a variety of environmental conditions. Contributions include pioneering ball-milled biochar composites, nitrogen-enriched hydrochar, Fe–Mn biochar filtration columns, and catalytic nanocomposites that enhance both adsorption and photodegradation efficiency. His scholarship also expands to foundational reviews on microplastic pollution, environmental fate, and contaminant transport. Beyond research output, he is an active reviewer for leading journals such as Chemical Engineering Journal, Journal of Environmental Management, Bioresource Technology, and Journal of Hazardous Materials, contributing to global scientific quality and knowledge dissemination. Overall, his research advances innovative, scalable, and sustainable solutions to water purification and environmental protection, supporting next-generation strategies for resource recovery and environmental resilience.

Profiles : Google Scholar | Scopus | Orcid

Featured Publications :

  • Huang, J., Chen, H., Zheng, Y., Yang, Y., Zhang, Y., & Gao, B. (2021). Microplastic pollution in soils and groundwater: Characteristics, analytical methods and impacts. Chemical Engineering Journal, 131870.

  • Luo, Y., Han, Y., Xue, M., Xie, Y., Yin, Z., Xie, C., Li, X., Zheng, Y., Huang, J., Zhang, Y., et al. (2022). Ball-milled bismuth oxybromide/biochar composites with enhanced removal of reactive red owing to synergistic adsorption and photodegradation. Journal of Environmental Management, 114652.

  • Huang, J., Zimmerman, A. R., Wan, Y., Bai, X., Chen, H., Zheng, Y., Zhang, Y., Yang, Y., Fan, Y., & Gao, B. (2024). Removal of sulfamethoxazole using Fe-Mn biochar filtration columns: Influence of co-existing polystyrene microplastics. Journal of Cleaner Production, 143877.

  • Xu, X., Xu, Z., Huang, J., Gao, B., Zhao, L., Qiu, H., & Cao, X. (2021). Sorption of reactive red by biochars ball milled in different atmospheres: Co-effect of surface morphology and functional groups. Chemical Engineering Journal, 127468.

  • Li, F., Zimmerman, A. R., Zheng, Y., Yang, Y., Huang, J., Zhang, Y., Hu, X., Yu, Z., Huang, J., & Gao, B. (2021). P-enriched hydrochar for soil remediation: Synthesis, characterization, and lead stabilization. Science of the Total Environment, 146983.

Prof. Dr. Alexandr Kolesnikov | Anthropogenic | Editorial Board Member

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Prof. Dr. Alexandr Kolesnikov | Anthropogenic | Editorial Board Member 

Professor | M. Auezov South Kazakhstan University | Kazakhstan

Prof. Dr. Alexandr Kolesnikov is a distinguished researcher whose work spans anthropogenic material processing, composite binders, construction materials, and industrial waste valorization. His research focuses on transforming man-made and metallurgical waste into high-performance composite materials, contributing significantly to sustainable construction and circular economy practices. Through his investigations on composite binders, heavy concrete formulations, and emulsifier systems for oil and gas operations, he has advanced scientific understanding of material behavior under thermal, chemical, and mechanical influences. His work also encompasses stress–strain analysis of prestressed cylindrical structures, the development of reverse water–oil emulsions, demulsification technologies from fatty acid derivatives, and kinetic studies in nonferrous metal distillation. His interdisciplinary contributions bridge chemical engineering, materials science, and environmental engineering, offering practical solutions for waste utilization, enhanced material durability, and industrial process optimization. With extensive peer-review activity across major international journals, he plays an influential role in maintaining scientific quality and rigor in the engineering and materials research community. His scholarly impact is reflected in strong citation metrics across academic platforms. According to Scopus, he has over 1,667 citations across 88 indexed documents, accompanied by an h-index of 30, demonstrating the broad reach and significance of his work. Google Scholar metrics further support his notable research influence, highlighting consistent academic engagement and continued citation growth. Prof. Kolesnikov’s body of work positions him as a leading contributor to sustainable material innovation and industrial waste conversion technologies.

Profiles : Scopus | Orcid 

Featured Publications :

Kolesnikov, A., Kuldeyev, E., Begentayev, M., Sarsenbayev, B., Syrlybekkyzy, S., Agabekova, A., Bayamirova, R., Togasheva, A., Zholbassarova, A., & Koishina, A. (2025). Investigation of the possibility of utilizing man-made waste to produce composite binders. Journal of Composites Science.

Nurymbetova, R., Ristavletov, R., Suzev, N., Kolesnikov, A., Kalshabekova, E., Kambarov, M., Kudabayev, R., Kopzhasarova, G., Omarov, B., & Zhumayev, Z. (2025). Study on the possibilities of utilizing wastes of polymetallic combines for the production of composite heavy concrete. Journal of Composites Science.

Zhangabay, N., Suleimenov, U., Utelbayeva, A., Buganova, S., Tolganbayev, A., Galymzhan, K., Dossybekov, S., Baibolov, K., Fediuk, R., Amran, M., & Kolesnikov, A. (2023). Experimental research of the stress-strain state of prestressed cylindrical shells considering temperature effects. Case Studies in Construction Materials.

Bondarenko, V. P., Nadirov, K. S., Golubev, V. G., Kolesnikov, A. S., & Sadyrbaeva, A. S. (2017). Study of a reagent-emulsifier for preparing reverse water-oil emulsions used for well-killing. Neftyanoe Khozyaystvo – Oil Industry.

Nadirov, K. S., Zhantasov, M. K., Bimbetova, G. Z., Kolesnikov, A. S., Sadyrbayeva, A. S., Orynbasarov, A. K., Kutzhanova, A. N., Turemuratov, R. S., Botabaev, N. E., & Zhantasova, D. (2016). Examination of optimal parameters of oxy-ethylation of fatty acids for obtaining demulsifiers. Chimica Oggi / Chemistry Today.

Mr. Haseeb ashraf Muhammad ashraf | Bioelectroanalytical | Editorial Board Member

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Mr. Haseeb ashraf Muhammad ashraf | Bioelectroanalytical | Editorial Board Member

Research Assistant | University of Gujrat | Pakistan

Mr. Haseeb ashraf Muhammad ashraf is an emerging researcher in the field of bioelectroanalytical chemistry with a strong focus on sustainable electrochemical systems, microbial fuel cell (MFC) technologies, and nanomaterial-driven environmental remediation. His research integrates advanced MXene-based materials, metal oxides, conductive polymers, and catalytic nanostructures to enhance electron transfer efficiency, energy conversion, and pollutant degradation across diverse bioelectrochemical platforms. He has contributed to shaping innovative approaches for CO2 electroreduction, wastewater-fed microbial fuel cells, and nanoparticle-assisted catalytic reactions, advancing green chemistry and renewable energy strategies. His work emphasizes the interplay between material design and bioelectrochemical performance, particularly exploring how engineered anodes and cathodes can improve power generation, wastewater treatment, and environmental sustainability. His publications demonstrate notable expertise in MXene-modified electrodes, polyaniline-supported biocatalysis, gold nanoparticle-based oxygen reduction catalysts, and optimized synthesis of metal sulfide nanoparticles. With growing recognition in the scientific community, his research output reflects consistent scholarly impact, supported by measurable citation performance. His documented citation indices include Scopus and Google Scholar metrics, with cumulative citations, h-index, and i10-index values that highlight the influence and visibility of his contributions. Collectively, his work positions him as a promising researcher advancing next-generation electrochemical and nanomaterial technologies for clean energy and environmental applications.

Profiles : Google Scholar | Orcid 

Featured Publications :

Ashraf, H., Tariq, M., Sandhu, Z. A., Tariq, A., Raza, M. A., Ashraf, S., Raza, H., & Al-Sehemi, A. G. (2024). MXenes and CO2: A pioneering journey towards sustainable electrochemical reduction. International Journal of Hydrogen Energy.

Ashraf, H., Mumtaz, M. W., Jamil, H., Muktar, H., Miran, W., Akhtar, M. T., & Wali, F. (2024). A CoFe2O4/Nb2C-MXene-modified anode improved the performance characteristics of a microbial fuel cell. Catalysts.

Mumtaz, M. W., Mukhtar, H., Miran, W., Alessa, A. H., Waleed, A., Sarwar, Z., & Ashraf, H. (2024). Impact of CeO2 modified cathode and PANI modified anode on tannery wastewater-fed microbial fuel cell performance. Saudi Journal of Biological Sciences.

Mumtaz, M. W., Munawar, R., Miran, S., Mukhtar, H., Miran, W., Iqbal, T., Farwa, U., & Ashraf, H. (2024). Polyaniline-modified anode with mixed microbial community improved microbial fuel cell performance. Biomass Conversion and Biorefinery.

Sandhu, Z. A., Farwa, U., Danish, M., Raza, M. A., Ashraf, H., Hamayun, M., Elahi, M., Manzoor, A., Toor, S., & Al-Sehemi, A. G. (2024). Gold nanoparticles as a promising catalyst for efficient oxygen reduction in fuel cells: Perils and prospects. Inorganic Chemistry Communications.

Dr. Muhammad Yousaf | Energy Storage | Editorial Board Member

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Dr. Muhammad Yousaf | Energy Storage | Editorial Board Member

Research Scientist | Shenzhen University | China

Dr. Muhammad Yousaf is a multidisciplinary researcher specializing in nanomaterials, semiconductor physics, ferrite-based functional materials, and advanced energy technologies, with a strong focus on solid oxide fuel cells, electrochemical energy storage, and dielectric applications. His research integrates material synthesis, interfacial engineering, defect chemistry, electrocatalysis, and charge transport phenomena to develop next-generation energy devices operating efficiently at low temperatures. Dr. Yousaf has made significant contributions to proton-, oxygen-ion-, and electron-conducting materials, pioneering heterostructure interfaces, dual-functional electrolytes, and advanced ferrite semiconductors for fuel cell applications. His expertise spans solid oxide electrolysis materials for hydrogen production, dielectric materials for antenna systems, magnetic nanomaterials, mixed ionic-electronic conductors, and high-performance semiconductor devices. He has also extensively explored spinel, garnet, and hexagonal ferrites for magneto-optical, microwave absorption, and high-frequency applications. Dr. Yousaf is proficient with a broad range of advanced characterization and computational tools, enabling deep insights into structural, electronic, and electrochemical properties of functional materials. With over 100 peer-reviewed publications as first, corresponding, equal-first, or co-author, he has demonstrated a sustained and impactful research output. His work has earned 2453 citations on Google Scholar (h-index 31, i10-index 68) and 2243 citations on Scopus across 104 documents (h-index 29), reflecting strong international recognition. His ongoing research continues to drive innovation in nano-energy devices, catalytic interfaces, and next-generation energy storage and conversion systems.

Profiles : Google Scholar | Scopus 

Featured Publications :

  1. Yousaf, M., Lu, Y., Akhtar, M. N., Khawaja, A. S., Batoo, K. M., Hussain, S., Noor, A., et al. (2023). Tailoring triple charge (O2−/H+/e−) conducting nature of Fe-based lanthanum doped samarium oxides for ceramic fuel cells (CFCs). Fuel, 349, 128689.

  2. Yousaf, M., Lu, Y., Hu, E., Akbar, M., Shah, M. A. K. Y., Noor, A., Akhtar, M. N., et al. (2024). Advances in solid oxide fuel cell technologies: Lowering the operating temperatures through material innovations. Materials Today Proceedings.

  3. Yousaf, M., Lu, Y., Hu, E., Akbar, M., Shah, M. A. K. Y., Noor, A., Akhtar, M. N., et al. (2023). Interfacial disordering and heterojunction enabling fast proton conduction. Small Methods, 2300450.

  4. Yousaf, M., Mushtaq, N., Zhu, B., Wang, B., Akhtar, M. N., Noor, A., & Afzal, M. (2020). Electrochemical properties of Ni0.4Zn0.6Fe2O4 and the heterostructure composites (Ni–Zn ferrite-SDC) for low temperature solid oxide fuel cell (LT-SOFC). Electrochimica Acta, 331, 135349.

  5. Akbar, N., Yousaf, M., Shah, M. A. K. Y., Ahmed, J., Noor, A., Islam, Q. A., Wu, Y., et al. (2025). Boosted proton conduction in LAO electrolyte through Li segregation for high-performance ceramic fuel cells. Fuel, 386, 134255.

Prof. Dr. Mona A.M. Abd El-Gawad | Dairy Science | Editorial Board Member

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Prof. Dr. Mona A.M. Abd El-Gawad | Dairy Science  | Editorial Board Member 

Professor | National Research Centre | Egypt

Prof. Dr. Mona A.M. Abd El-Gawad is a distinguished agricultural and food science specialist with a strong focus on dairy technology, functional food development, and biotechnological enhancement of agro-industrial resources. Her work integrates dairy chemistry, food processing innovation, and nutritional science to develop healthier, value-added food products, particularly through the use of bioactive compounds, fortified ingredients, and functional fermentation. She has contributed significantly to improving the quality, safety, and nutritional value of dairy products such as mozzarella cheese, processed cheese, fermented milk, and school nutrition meals, with notable achievements including a patented method for producing nutritionally enhanced processed cheese fortified with rice bran. Her research has expanded into biotechnology-driven valorization of agricultural wastes, enzymatic and fungal treatments for feed improvement, and the development of antioxidant- and anticancer-enriched fermented foods. She has an extensive record of scientific participation, including editorial board service, research project contributions, and international conference engagement. Scientometric indicators highlight the impact of her work: on Google Scholar, she has accumulated 1144 citations with an h-index of 19 and an i10-index of 28, while Scopus records 257 citations across 20 documents with an h-index of 8. Her multidisciplinary expertise positions her as a leading contributor to advancing functional foods, sustainable agricultural innovations, and dairy science research.

Profiles : Scopus | Orcid | Google Scholar 

Featured Publications :

  • Fayed, A. E., Mahran, G. A., Ahmed, N. S., Saada, M. Y., & Abd El Gawad, M. A. M. (1993). Enhancement of milk fat quality by conversion into recombined butter in relation to some properties of skim milk powder used. J. Assiut Agric. Sci., 24(2), 13–25.

  • Ahmed, N. S., Mahran, G. A., Fayed, A. E., Saada, M. Y., & Abd El Gawad, M. A. M. (1993). Keeping quality of market butter oil in comparison with Samna. J. Assiut Agric. Sci., 24(2), 27–38.

  • Mahran, G. A., Ahmed, N. S., Fayed, A. E., Saada, M. Y., & Abd El Gawad, M. A. M. (1993). Quality evaluation of imported skim milk powder. J. Agric. Sci. Mansoura Univ., 18, 1434–1440.

  • Saada, M. Y., Mahran, G. A., Ahmed, N. S., Fayed, A. E., & Abd El Gawad, M. A. M. (1993). Effect of milk fat quality on the properties of recombined butter. J. Agric. Sci. Mansoura Univ., 18, 1423–1433.

  • Abd El-Rafee, S., Salama, F. M. M., & Abd El Gawad, M. A. M. (1998). Quality and recovery of buffaloes’ mozzarella cheese. Annals Agric. Sci. Ain Shams Univ., 43(2), 489–500.

Mr. Emmanuel De Gregorio | Polymer Electrolyte | Best Researcher Award

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Mr. Emmanuel De Gregorio | Polymer Electrolyte | Best Researcher Award

Post-Doc Researcher | University of Naples Partheope | Italy

Mr. Emmanuel De Gregorio is a materials chemist whose research focuses on advanced polymeric and inorganic materials for sustainable energy technologies, with particular expertise in membrane science, fuel cells, electrochemistry, and catalytic processes. His work spans kinetic modelling of heterogeneous catalysis, development of eco-sustainable inorganic materials, and innovative polymer-based membranes engineered for high proton conductivity and thermal stability. He has significantly contributed to the field of non-fluorinated membranes for fuel cell applications, especially through the synthesis, functionalization, and electrochemical evaluation of polymers such as PBI, PVA, PPO, and sPS. A key part of his research involves electrospinning, catalytic ink formulation, and membrane electrode assembly fabrication, where he integrates material chemistry with applied engineering to optimize device performance. His scientific activity also includes the study of adsorption kinetics, structure–property relationships, and the design of advanced chemical processes using modelling tools. He collaborates with national and international research groups, contributing to multidisciplinary progress in hydrogen technologies and circular-materials design. His research impact is reflected in his publication record, with metrics demonstrating growing visibility: Google Scholar – 51 citations, h-index 3, i10-index 1; Scopus – 43 citations, 6 documents, h-index 3. He has delivered several oral communications at international conferences, highlighting his active role in the scientific community and commitment to advancing sustainable energy materials.

Profiles : Google Scholar | Orcid | Scopus 

Featured Publications : 

  • De Gregorio, E., Occhicone, A., Montagnaro, F., Roviello, G., Ricciotti, L., & Ferone, C. (2023). A novel method of iron oxalate production through the valorization of red mud. Chemical Engineering Research and Design, 194, 95–104.

  • Occhicone, A., Graziuso, S. G., De Gregorio, E., Montagnaro, F., Ricciotti, L., Tarallo, O., Roviello, G., & Ferone, C. (2024). Synthesis and characterization of new acid-activated red mud–metakaolin geopolymers and comparison with their alkaline counterparts. Journal of Cleaner Production, 435, 140492.

  • Occhicone, A., De Gregorio, E., Montagnaro, F., Ausanio, G., Gargiulo, V., Alfè, M., Roviello, G., & Ferone, C. (2024). Production and characterization of nano-magnetic material through different red mud reduction processes. Materials Chemistry and Physics, 129950.

  • Roviello, G., Occhicone, A., De Gregorio, E.*, Ricciotti, L., Ferone, C., Cioffi, R., & Tarallo, O. (2025). Alkali-activated porous materials from biomass bottom ash for the production of insulation panels. Sustainable Materials and Technologies, e01404.

  • Occhicone, A., De Gregorio, E.*, Di Rienzo, G., Mucsi, G., Salzano, G. B., Roviello, G., & Ferone, C. (2025). Alkali-activated porous materials from biomass bottom ash for the production of insulation panels. Waste and Biomass Valorization.

Dr. Pradip Debnath | Environmental Chemistry | Best Paper Award

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Dr. Pradip Debnath | Environmental Chemistry | Best Paper Award

Assistant Professor | Rajarshi College of Education and Skill | India

Dr. Pradip Debnath is a dedicated researcher in Transport Geography and Regional Planning, with an emphasis on sustainable regional development, spatial mobility, and accessibility. His research explores how transportation networks, particularly highway systems, influence regional growth, community well-being, and spatial transformation. In addition to his transport geography work, he has significantly contributed to wetland ecosystem management, emphasizing the integration of remote sensing, GIS, and geospatial analytics for sustainable environmental monitoring. His studies on Rudrasagar Lake, a Ramsar site in Tripura, provide valuable insights into anthropogenic impacts on wetland health, biodiversity, and hydro-chemical dynamics. His research outputs include interdisciplinary work linking transport infrastructure with environmental sustainability and socio-economic resilience. Dr. Debnath has served as a peer reviewer for six articles across five international journals and maintains an active association with the American Journal of Traffic and Transportation Engineering. According to Scopus, his scholarly contributions include 5 documents, 24 citations, and an h-index of 2, reflecting a growing impact in both geography and environmental science. His research blends geoinformatics, climate resilience, and transport network analysis to address the challenges of regional development and ecological stability in Northeast India and beyond.

Profiles: Scopus | Orcid

Featured Publications : 

  • Debnath, P., Biswas, A., Chaudhuri, P., & Mitra, S. (2025). Assessment of hydro-chemical characteristics and pollution status in Rudrasagar Lake ecosystem integrating pollution indices and geospatial techniques: A framework for sustainable wetland management. Cleaner Water, 4, 100142.

  • Debnath, P., Biswas, A., Ghosh, A., & Mitra, S. (2024). Exploring wetland health and its contributions to community well-being entities: Perspectives from the Rudrasagar Lake area, Tripura. Indian Journal of Landscape Systems and Ecological Studies, 47(2), 138–161.

  • Debnath, P., Roy, S., Bharadwaj, S., Hore, S., Nath, H., Mitra, S., & Ciobotaru, A. M. (2023). Application of multivariable statistical and geo-spatial techniques for evaluation of water quality of Rudrasagar wetland, the Ramsar site of India. Water, 15(23), 4109.

  • Roy, S., Debnath, P., Vulevic, A., & Mitra, S. (2023). Incorporating climate change resilience in India’s railway infrastructure: Challenges and potential. Mechatron. Intell. Transp. Syst., 2(2).

  • Debnath, P., Roy, S., Hore, S., & Mitra, S. (2023). Mapping of optimum freight route by using hybrid VNS algorithm to sustain the economic viability of a landslide-prone area: A case study of Tripura. National Academy Science Letters.