Hyun-Jae Shin | Green Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Hyun-Jae Shin | Green Chemistry | Best Researcher Award

Associate Professor | Chosun University | South Korea

Dr. Hyun-Jae Shin, an accomplished Associate Professor of Biochemical Engineering at Chosun University, stands as a leading figure in the field of biotechnology, biochemical engineering, and sustainable biomaterials research. As the President of the Korean Society of Mushroom Science, Dr. Shin has established himself as a pioneer in integrating fungal biotechnology, enzyme engineering, and natural product chemistry to create innovative and eco-friendly solutions for global sustainability challenges. He earned his Ph.D. in Chemical Engineering from KAIST, South Korea, and completed his postdoctoral fellowship at the University of Westminster, UK. Over his distinguished academic and research career, Dr. Shin has successfully completed 50 major research projects and continues to lead three ongoing initiatives focusing on bio-based materials and enzymatic biotransformation. With an impressive record of over 96 publications in high-impact SCI and SCIE journals, 13 published books, and 31 registered patents, his work has attracted more than 5,000 citations, reflecting its global influence. Dr. Shin’s research primarily revolves around the eco-friendly bioconversion of biomass, such as mushroom mycelium, plant polyphenols, and microbial enzymes, for the creation of sustainable materials like biodegradable fibers, bio-composites, and eco-leather. His groundbreaking innovations have redefined the role of green chemistry and fungal biotechnology in advancing the circular bioeconomy and reducing industrial carbon footprints. Through molecular breeding, enzymatic transformation, and process engineering, he has developed scalable methods that transform agricultural by-products into high-value materials, promoting waste minimization and renewable resource utilization. As Editor-in-Chief of the KSBB Journal and former Editor-in-Chief of the Journal of Mushroom, Dr. Shin continues to shape academic discourse in biochemical engineering. His collaborations with institutions such as Kyoto University (Japan) and the Shandong Academy of Sciences (China) further strengthen his global research network. Dr. Shin’s interdisciplinary expertise and leadership have made a lasting impact on sustainable biotechnology, positioning him as a visionary in the pursuit of green innovation and circular manufacturing for a sustainable future.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Im, H.-S., Ryu, M.-S., Kim, B.-J., Eo, J.-K., Park, E., Tagawa, S., & Shin, H.-J. (2025). Eco-friendly masks with a blend of mushroom fiber and cotton. Biotechnology Design. bio-composites

Jeong, Y.-H., Im, H.-S., Park, C., Seo, J., Joo, Y., & Shin, H.-J. (2025, October). Large-scale batch (1 m²) production and mechanical assessment of mushroom mycelium mats. Korean Journal of Chemical Engineering.

Im, H.-S., Tagawa, S., Jeong, J.-S., & Shin, H.-J. (2025, March 5). Production of decolorized mushroom pulp for nonwoven cotton composite fibers. Fibers, 13(3), 30.

Shin, H.-J., Ro, H.-S., Kawauchi, M., & Honda, Y. (2025, January 10). Review on mushroom mycelium-based products and their production process: From upstream to downstream. Bioresources and Bioprocessing, 12(1), 8367.

Choi, M.-H., Yang, S.-H., Lee, Y.-J., Sohn, J.-H., Lee, K.-S., & Shin, H.-J. (2023). Anti-obesity effect of daidzein derived from Pachyrhizus erosus (L.) Urb. extract via PPAR pathway in MDI-induced 3T3-L1 cell line. Cosmetics, 10(6), 164.

T. Syeda Jeelani Basri | Industrial Chemistry | Women Researcher Award

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Dr. T. Syeda Jeelani Basri | Industrial Chemistry | Women Researcher Award

Associate Professor | G. Pullaiah College of Engineering & Technology | India

Dr. Syeda Jeelani Basri, M.Sc., Ph.D., is a highly accomplished chemist and academician with over 15 years of teaching and research experience in chemistry, nanoscience, and pharmaceutical sciences. She obtained her Ph.D. in Chemistry from Jawaharlal Nehru Technological University, India, focusing on the phytochemical and spectral analysis of medicinal herbs, under the guidance of Prof. G. V. Subba Reddy. Her research integrates organic, inorganic, material, and pharmaceutical chemistry, with a particular emphasis on green chemistry, nanotechnology, and natural product synthesis. Dr. Basri has made notable contributions in phytochemical extraction, characterization, and the synthesis of bioactive compounds using eco-friendly methodologies. Her scientific work is reflected in 21 research publications, including SCI, Scopus, IEEE, and UGC Care-listed journals, alongside two granted patents in green process chemistry and polyphenol enhancement in edible products. Her recent Scopus-indexed works highlight the green synthesis of gold nanoparticles, the development of CuMn₂O₄/MnO₂/MWCNT nanohybrids for supercapacitors, and AI-based pharmaceutical design demonstrating her interdisciplinary expertise bridging chemistry, artificial intelligence, and environmental applications. In addition, her IEEE publication on machine learning for friction and wear analysis underscores her engagement in computational materials science. Dr. Basri has authored three books, presented at international and national conferences, and has been actively involved in institutional leadership roles such as NAAC Criterion 3 In-charge, IQAC member, and R&D coordinator. A lifetime member of the Indian Society for Radiation and Photochemical Sciences, she also serves on the editorial board of the Glacier Journal of Scientific Research. Recognized with the prestigious Adarsh Vidya Saraswati Rashtriya Puraskar, Dr. Basri continues to advance sustainable innovations in green chemistry, phytopharmaceuticals, and nanomaterials, combining analytical precision with a passion for environmentally responsible scientific progress.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Basri, T. S. J. (2025). Facile green synthesis of gold nanoparticles using Catunaregam spinosa extract for environmental remediation and antimicrobial activity. Chemistry Select, 10, 1–14.

Basri, T. S. J. (2025, September 26). Synergistic CuMn₂O₄/MnO₂/MWCNT nanohybrid for ultra-stable and high-energy asymmetric supercapacitors. Journal of Porous Materials.

Basri, T. S. J. (2025). Artificial intelligence for drug discovery: Accelerating the development of new pharmaceuticals. Web of Conferences, 76, 01010.

Hua Zhang | Analytical Chemistry | Best Researcher Award

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Prof. Dr. Hua Zhang | Analytical Chemistry | Best Researcher Award

Professor | Henan Normal University | China

Professor Zhang Hua is a distinguished scholar in the fields of functional dye molecular engineering, biosensing, and advanced fluorescence technologies. With a Ph.D. from Dalian University of Technology, she has established a strong scientific presence through innovative research that bridges chemistry, materials science, and biomedicine. As a recipient of the National Excellent Young Scientist Fund and a recognized Henan Province Expert, Professor Zhang leads a university-level scientific innovation team focused on developing high-performance fluorescent dyes and imaging tools for disease diagnosis and molecular detection. Her research has significantly advanced the design and functional tuning of organic dyes for two-photon fluorescence applications, enabling highly sensitive and specific detection of key biomolecules such as nucleic acids, enzymes, and proteins. These technologies have been successfully applied to single-cell analysis, high-resolution bioimaging, and early-stage diagnostics. Professor Zhang has also driven the development of dye-based technologies that support industrial product validation, exemplified by contributions that helped a commercial product meet stringent EU REACH certification standards. Her growing portfolio of nine granted Chinese invention patents and 78 SCI-indexed publications, supported by an H-index of 27 and more than 2,669 citations, reflects her significant scholarly influence. She has completed multiple projects funded by the National Natural Science Foundation of China and is actively engaged in ongoing national-level research. Her memberships in key professional committees highlight her leadership in China’s analytical chemistry and biosensing communities. Professor Zhang’s work continues to accelerate innovation at the chemistry–biology interface, driving forward technologies that impact both scientific research and real-world biomedical applications.

Profiles : Scopus | ORCID

Featured Publications

Yang, Y. T., Liu, Y., …, & Zhang, H. (2025). H2S-activated Type-I photochemical probe: Fluorescent self-reporting for real-time monitoring of tumor ablation. Analytical Chemistry, 97(42), 23467–23476.

Han, J. N., Yang, M., …, & Zhang, H. (2025). Light-driven ESIPT-based anthraquinone analogues for synergistic fluorescent self-reporting and photodynamic therapy of malignant tumors. Journal of Medicinal Chemistry, 68(19), 20814–20826.

Liu, J., Liu, Y., Zhi, S., Yang, Y., Kim, H., Wu, D., Wang, G., James, T. D., Yoon, J., & Zhang, H. (2025). A nanotherapeutic agent for synergistic tumor therapy: Co-activation of photochemical-biological effects. Angewandte Chemie International Edition.

Niu, H. Y., Wang, S. N., …, & Zhang, H. (2025). Naphthalimide-based Type-I nano-photosensitizers for enhanced antitumor photodynamic therapy: H₂S synergistically regulates PeT and self-assembly. Angewandte Chemie International Edition. (Early Access).

Lv, C., Li, Z., Liu, W., Yang, M., Zhang, H., Fan, J., & Peng, X. (2025). An activatable chemiluminescent self-reporting sulfur dioxide donor for inflammatory response and regulation of gaseous vasodilation. ACS Sensors.

Andrea Carpentieri | Analytical Chemistry | Best Researcher Award

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Prof. Andrea Carpentieri | Analytical Chemistry | Best Researcher Award

Professor | Department of Chemical Sciences Federico II, Naples IT | Italy

Prof. Andrea Carpentieri is an accomplished biochemist whose research career spans advanced biomolecular analysis, structural proteomics, and the application of biochemical methodologies to cultural heritage. Trained at the University of Naples “Federico II,” where he specialized in Biological Chemistry, his early work focused on the structural characterization of proteins, including the analysis of recombinant enzymes and the investigation of post-translational modifications such as glycosylation and phosphorylation. Through extensive experience in mass spectrometry including ESI-MS, MALDI-TOF, FT-ICR, and multidimensional chromatography. Prof. Carpentieri developed integrated strategies that combine classical biochemical techniques with cutting-edge MS/MS procedures for detailed molecular mapping. His doctoral and postdoctoral research expanded into functional proteomics, emphasizing protein–protein interactions, differential protein expression, and the identification of biomolecular changes associated with physiological and pathological processes, including apoptosis. A significant part of his international experience was gained at Boston University School of Medicine, where he investigated uncommon post-translational modifications in human protozoan parasites, particularly focusing on O-phosphoglycosylation in Entamoeba species, with implications for diagnostics and immunology. In recent years, Prof. Carpentieri has emerged as a leading figure in the field of biochemical applications for cultural heritage. His research employs high-resolution mass spectrometry to analyze biomolecules polysaccharides, lipids, proteins, and metabolites extracted from ancient artifacts, enabling the identification of original artistic materials, degradation products, and historical production techniques. These analytical insights support archaeometric investigations and inform conservation and restoration practices. Furthermore, he has contributed to the development of environmentally sustainable chemical formulations, including biocompatible adhesives, biocides, and solvents tailored for the preservation of artworks and historical objects. His interdisciplinary work bridges chemistry, archaeology, materials science, and conservation, enhanced by collaborations with Princeton University, the Courtauld Institute of Art, and several Italian cultural institutions. Through his scientific, educational, and outreach activities, Prof. Carpentieri has significantly advanced both biochemical knowledge and the protection of cultural heritage at national and international levels.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Melchiorre, M., Melchiorre, C., Moracci, M., Somma, P. I., Markiewicz, M., Stolte, S., Cerruti, P., Ruffo, F., & Carpentieri, A. (2025). Lactic acid-based compounds as green alternative solvents for cultural heritage: Application on canvas painting restoration. Journal of Cultural Heritage. Advance online publication.

Lemos, R., Pérez-Badell, Y., De Nisco, M., Cimmino, G., Gonzalez, C., Carpentieri, A., Pacifico, S., Suárez, M., & Pedatella, S. (2025). A fullerene-based selenosugar ball. European Journal of Organic Chemistry. Advance online publication.

Lemos, R., Pérez-Badell, Y., De Nisco, M., Carpentieri, A., Suárez, M., & Pedatella, S. (2024). Organic chimeras based on selenosugars, steroids, and fullerenes as potential inhibitors of the β-amyloid peptide aggregation. ChemPlusChem, 90(3), e202400404.

Amato, L., De Rosa, C., Omodei, D., Tufano, C. C., Buono, R., Tuccillo, C., Roviello, G. N., Spinelli, M., Fontanarosa, C., Papaccio, F., Camerlingo, R., Morgillo, F., Carpentieri, A., Amoresano, A., Tirino, V., Iommelli, F., Corte, C. M. D., Del Vecchio, S., & De Rosa, V. (2025). Synergistic effects of oncogene inhibition and pyruvate dehydrogenase kinase blockade in resistant NSCLC cells. Biochimica et Biophysica Acta (BBA) – Molecular Basis of Disease, 1871, 168014.

Cipolletta, B., Morelli, M., Perlingieri, C., Somma, P. I., Amoresano, A., Marino, G., & Carpentieri, A. (2024). Molecular characterization of adhesives (glue lining pastes) used in restoration. Analytical Chemistry, 96(42), 16551–16560.

 

Yikang Liu | Chemical Kinetics | Editorial Board Member

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Dr. Yikang Liu | Chemical Kinetics | Editorial Board Member

University of Science and Technology Beijing | China

Dr. Yikang Liu, a dedicated researcher at the University of Science and Technology Beijing, has established a strong academic profile in the field of mine fire prevention, coal spontaneous combustion mechanisms, and underground hazard mitigation. His work focuses on understanding how water immersion, gas adsorption dynamics, and inert gas environments influence coal oxidation behavior and ignition tendencies. Through nearly 20 peer-reviewed publications and 5 patents, Dr. Liu has contributed significant advancements to both fundamental science and applied mine-safety technologies. His research integrates experimental coal chemistry, pore-structure evolution, and competitive adsorption processes to reveal multi-scale mechanisms that govern heat generation and gas release during coal oxidation. Supported by major funding such as the National Natural Science Foundation of China and collaborative grants with national engineering research centers, he has led projects that optimize early-warning indicators using adsorption theory and improve inertization strategies using CO₂-N₂ gas environments. Dr. Liu’s findings such as CO formation patterns, pore structure variations, and functional group transformations have laid the groundwork for more accurate prediction models for spontaneous combustion in humid mining regions. His strong collaborations with leading energy enterprises, including China Energy Group and Shandong Energy Group, have enabled the development of intelligent fire-prevention systems, smart ventilation technologies, and data-driven monitoring platforms. To date, his innovations have been implemented in eight mines, improving fire prediction accuracy by up to 40% and contributing to safer, more digitalized mining operations. Dr. Liu’s research continues to bridge fundamental coal chemistry with real-world mine safety, advancing national efforts toward intelligent and low-risk mining.

Profile : Scopus 

Featured Publications

Liu, Y., Wang, H., Niu, H., Shao, Z., Yang, Y., Liu, X., Wang, G., Zhou, Z., & Wang, H. (2025). Study on CO formation and pore structure development during low-temperature oxidation of coal in CO₂–N₂ environment. Journal of Cleaner Production.

Liu, Y., Wang, H., Niu, H., Wang, T., Chen, Z., Chen, Y., & Qi, Q. (2024). Time-shift effect of spontaneous combustion characteristics and microstructure difference of dry-soaked coal. International Journal of Coal Science and Technology.

Wang, H., Liu, Y., Niu, H., Shao, Z., Wang, G., & Wang, H. (2025). Study on the difference of coal spontaneous combustion characteristic parameters after lean oxygen combustion in different inert gas environments: Microscopic and macroscopic. Fuel.

Liu, Y., Wang, H., Niu, H., Xing, S., Wang, G., Zhou, Z., Yang, Y., & Liu, X. (2025). Coal pore structure evolution under drying–wetting cycle. Natural Resources Research.

Liu, Y., Wang, H., Niu, H., Chen, Y., Wang, G., Tian, F., Tang, J., & Qi, Q. (2025). Research progress and visualization analysis of spontaneous combustion of water-immersed coal. Combustion Science and Technology.

 

Sundaramahalingam M A | Green Chemistry | Editorial Board Member

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Dr. Sundaramahalingam M A | Green Chemistry | Editorial Board Member

Assistant Professor | V.S.B. Engineering College | India

Dr. M. A. Sundaramahalingam is an accomplished researcher in biotechnology, bioenergy, bioprocess engineering, microbial technology, and computational bioengineering. With a strong academic foundation including an M.Tech in Biotechnology and a Ph.D. from the National Institute of Technology, Tiruchirappalli, he has developed a diverse research profile spanning experimental, computational, and environmental biotechnology. His work focuses on sustainable energy solutions, valorization of industrial waste, microbial lipid production, biodiesel generation, biohydrogen recovery, and bio-based bioprocess optimization. Through innovative approaches such as ultrasonic-assisted transesterification, surfactant-mediated biomass pretreatment, enzymatic processing, and computational modeling, he has contributed to the advancement of green technologies and efficient bioprocess systems. Dr. Sundaramahalingam has published extensively in high-impact international journals including Fuel, Renewable Energy, Journal of Molecular Liquids, Biomass Conversion and Biorefinery, International Journal of Hydrogen Energy, Ultrasonics Sonochemistry, and Chemosphere. His works address critical challenges such as enhancing biofuel yields, improving wastewater treatment using microbial systems, developing energy-efficient nanocatalysts, and utilizing macroalgae and food industry waste for value-added bioproducts. His contributions also extend to computational biotechnology, demonstrated through book chapters on machine learning applications, gene expression analysis, and algorithmic modeling. His achievements include a published patent on bacterial-mediated feather waste degradation, recognition as a Prime Minister Research Fellow, and service as a reviewer for several international journals. With strong expertise in bioprocess engineering, biofuel production, biosurfactants, and environmental biotechnology, Dr. Sundaramahalingam’s research significantly advances sustainable biotechnological innovations aimed at addressing global energy and environmental challenges.

Profiles : Scopus | ORCID

Featured Publications

Ponmanian, M., Vishnuprasad, S., Suriiyakumar, R., Gokulakrishnan, S. A., Ganeshmoorthy, I., & Sundaramahalingam, M. A. (2025). Optimization of process parameters in acoustic cavitation mediated extraction of pectin from Prosopis juliflora pod peel and its analytical characterization. Biomass Conversion and Biorefinery.

Sundaramahalingam, M. A., & Sivashanmugam, P. (2024). Synergistic biodiesel production from food flavourant industry wastewater using Rhodotorula mucilaginosa and Chlorella vulgaris. Process Safety and Environmental Protection, 191(Part B), 2064–2073.

Sundaramahalingam, M. A., & Sivashanmugam, P. (2023). Production of microbial carotenoid using innate inherent of the food industry wastewater. Journal of Molecular Liquids, 388, 122772.

Sundaramahalingam, M. A., & Sivashanmugam, P. (2023). Biodiesel production from a novel renewable source through the ultrasound-assisted transesterification process using an energy-efficient nanocatalyst developed from waste material. Fuel, 346, 128397.

Sundaramahalingam, M. A., & Sivashanmugam, P. (2023). Concomitant strategy of wastewater treatment and biodiesel production using innate yeast cell (Rhodotorula mucilaginosa) from food industry sewerage and its energy system analysis. Renewable Energy, 208, 52–62.

Ahmad Ghanbari | Physical Chemistry | Best Researcher Award

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Dr. Ahmad Ghanbari | Physical Chemistry | Best Researcher Award

Yasouj University | Iran

Dr. Ahmad Ghanbari is a distinguished physicist whose research in condensed matter physics and interdisciplinary theoretical modeling has positioned him among the top two percent of scientists worldwide in 2025. With a prolific record of 44 peer-reviewed publications, Dr. Ghanbari has made influential contributions to statistical mechanics, thermodynamics, biomedical physics, and quantum systems. His innovative application of non-extensive thermodynamic entropy provided a novel and highly accurate method for predicting the dynamics, spread, and mortality rates of COVID-19, demonstrating the power of physical models in epidemiological forecasting. In biomedical physics, he has pushed scientific boundaries by modifying the classical Lotka–Volterra equation to more accurately describe the competitive behavior between normal and cancerous cells, offering new perspectives for understanding tumor growth and treatment dynamics. His groundbreaking study on the thermodynamic behavior of cancer tumors, particularly the influence of a tilted external magnetic field on interstitial fluid pressure within spherical tumors, provides valuable theoretical insights that could support advancements in cancer therapy and targeted treatment strategies. Beyond biomedical applications, Dr. Ghanbari has conducted extensive research into the thermodynamic properties of diatomic molecules, contributing to a deeper understanding of molecular interactions and energy states. His work on quantum nanostructures further demonstrates his versatility, addressing complex quantum behaviors that underpin next-generation nano-devices and materials. Complementing his research excellence, Dr. Ghanbari has dedicated three years to teaching at Yasouj University, shaping the academic and scientific development of future physicists.

Profiles : Scopus | Google Scholar 

Featured Publications

Ghanbari, A. (2025). Theoretical calculations of thermal functions of diatomic molecules using shifted Deng-Fan potential. Computational and Theoretical Chemistry, 1248, 115186.

Ghanbari, A., & Khordad, R. (2025). A theoretical model to study the influence of an external tilted magnetic field on interstitial fluid flow inside a cylindrical tumor with capillaries. International Journal of Modern Physics C, 36(07), 2450251.

Ghanbari, A. (2025). Computational investigation of magnetic field effect on thermal function of diatomic molecules with anharmonic oscillator potential. Computational and Theoretical Chemistry, 1243, 114991.

Ghanbari, A., Khordad, R., & Ghaderi-Zefrehei, M. (2025). A modified Lotka–Volterra equation for the investigation of competition between normal and cancer cells. International Journal of Modern Physics C, 36(11), 1–12.

Ghanbari, A. (2024). Aharonov–Bohm flux, topological defect and magnetic field effects on the optical properties of quantum dots in a quantum-plasma environment. Journal of Computational Electronics, 23(1), 22–31.

Oluwaseyi Samson Ojo | Environmental Chemistry | Best Researcher Award

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Dr. Oluwaseyi Samson Ojo | Environmental Chemistry | Best Researcher Award

Lecturer II | Abiola Ajimobi Technical University | Nigeria

Dr. OJO Oluwaseyi Samson is an accomplished scholar in the field of Industrial Chemistry whose research has significantly advanced understanding of environmental pollution, analytical chemistry, and sustainable chemical processes. With a robust academic background culminating in a Ph.D. in Chemistry, he has consistently demonstrated excellence in scientific research, teaching, and professional service. His primary research interests center on the investigation of trace organic compounds, heavy metals, polycyclic aromatic hydrocarbons (PAHs), and microbial contaminants across diverse environmental matrices such as groundwater, surface water, soil, and sediments. Through extensive field studies and analytical assessments, Dr. Ojo has generated vital baseline data essential for evaluating environmental quality and public health implications in Nigeria and similar developing regions. His scholarly contributions are well-documented in reputable international journals, including Chemistry Africa, Energy Reports, and the American Journal of Food Science and Technology. His research publications explore critical topics such as biodiesel development from non-conventional vegetable oils, heavy metal speciation in groundwater, health risk assessment of surface waters, and polycyclic aromatic hydrocarbon contamination in sediments and food products. These studies not only enhance scientific understanding but also offer practical mitigation strategies for environmental pollution and sustainable industrial practices. Beyond research, Dr. Ojo actively contributes to academic growth through teaching and mentorship. He lectures in core chemistry and industrial process courses, such as Reaction Kinetics, Instrumental Methods of Analysis, and Water and Wastewater Treatment, inspiring the next generation of chemists. As an Associate Member of the Institute of Strategic Management, Nigeria, he also integrates strategic and environmental management perspectives into his professional practice. His dedication to addressing pressing environmental challenges, coupled with his commitment to sustainable industrial chemistry, positions Dr. OJO Oluwaseyi Samson as an exemplary researcher whose work continues to make a meaningful impact on science, society, and environmental health.

Profile : Scopus 

Featured Publications

Ojo, O. S., Oyekunle, J. A. O., Adedayo, O. S., Oyebode, B. A., Adeagbo, D. O., Adekunle, A. S., & Ogunfowokan, O. A. (2025). Evaluation of contamination indices of heavy metals in the soils within the vicinity of students’ residential agglomerations in Obafemi Awolowo University, Ile-Ife, Osun State, Nigeria. International Journal of Analytical Chemistry.

Oyekunle, J. A. O., Durodola, S. S., Adekunle, A. S., Afolabi, F. P., Ore, O. T., Lawal, M. S., & Ojo, O. S. (2021). Potentially toxic metals and polycyclic aromatic hydrocarbons composition of some popular biscuits in Nigeria. Chemistry Africa, The Journal of the Tunisian Chemical Society and Springer Nature Switzerland.

Adekunle, A. S., Oyekunle, J. A. O., Oladele, S. O., Ojo, O. S., & Nobanathi, W. M. (2020). Evaluation of polycyclic aromatic hydrocarbons and health risk assessment of surface water and sediments of River Sasa, Ife North Local Government Area, Nigeria. Chemistry Africa, The Journal of the Tunisian Chemical Society and Springer Nature Switzerland, 2522–5758.

Adekunle, A. S., Oyekunle, J. A. O., Ojo, O. S., Makinde, O. W., Nkambule, T. T. I., & Mamba, B. B. (2019). Heavy metal speciation, microbial study and physicochemical properties of some groundwaters: A case study. Chemistry Africa, The Journal of the Tunisian Chemical Society and Springer Nature Switzerland.

Oyekunle, J. A. O., Elugoke, S. E., Adekunle, A. S., Ojo, O. S., Oyinloye, A. J., Fakoya, O. T., Obisesan, O. R., & Durodola, S. S. (2019). Biodiesel potentials and lubricating properties of Citrus sinensis seed oil. International Journal of Bioorganic Chemistry, 4(2), 84–92.

Remy Kindanloun Bationo | Phytochemistry | Best Researcher Award

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Dr. Remy Kindanloun Bationo | Phytochemistry | Best Researcher Award

Research Associate | Centre National de la Recherche Scientifique et Technologique (CNRST) | Burkina Faso

Dr. Rémy K. Bationo is an accomplished organic chemist at the National Center for Scientific and Technological Research (CNRST-IRSAT), Burkina Faso, specializing in phytochemistry, natural product chemistry, and bioactive compound development. He obtained his Ph.D. in Organic Chemistry and Master’s in Phytochemistry  from Joseph KI-ZERBO University, where he also served as a Teaching and Research Assistant in organic chemistry. Over the past decade, Dr. Bationo has made significant contributions to the chemical characterization and biological evaluation of medicinal plants, aiming to harness natural resources for health, food security, and sustainable development. His research focuses on bioactive compounds, essential oils, antioxidants, and natural product-based pharmaceuticals. Through projects funded by Burkina Faso’s Research and Innovation for Development Fund (FONRID), Dr. Bationo has led pioneering initiatives, including the development of food supplements using plant extracts, pharmaceutical applications of Cymbopogon citratus essential oil, and the creation of a national herbarium and chemical library of medicinal plants. His publications in leading journals such as Chemistry of Natural Compounds, Pharmacology & Pharmacy, Malaria Journal, and Asian Journal of Chemical Sciences reflect his multidisciplinary expertise in phytochemical analysis, HPLC-MS profiling, antioxidant assays, and antidiabetic evaluations. Dr. Bationo’s recent studies highlight the chemical fingerprinting of Cyperus species, antifungal potential of Cymbopogon giganteus, and HPTLC/HPLC-MS characterization of phenolic acids and anthocyanins in Burkinabe flora. His work not only enhances the understanding of plant bioactivity but also supports local pharmaceutical innovation and agricultural value addition. Recognized as a One Planet Fellow by the African Women in Agricultural Research and Development (AWARD) initiative, he has also undertaken international training in Belgium, France, and Ivory Coast, strengthening his scientific collaborations. Through his dedication to natural product chemistry and sustainable innovation, Dr. Rémy K. Bationo stands as a pioneer in bioresource valorization and phytochemical research in West Africa, contributing profoundly to science-driven development in Burkina Faso.

Profiles : Scopus | ORCID 

Featured Publications

Bationo, R. K., Bazie, B., Noba, A., Dabiré, C. M., Abdoulaye, Y., Toe, M., Sawadogo, I., Palé, E., & Nebié, R. H. C. (2025). Chemical fingerprints and antioxidant properties of two Cyperus species in Burkina Faso. Chemistry of Natural Compounds, 61(5), 760–766.

Bationo, R. K., Kaboré, D. S., Abdoulaye, Y., Noba, A., Toe, M., Dabiré, C. M., Palé, E., & Nebié, R. H. C. (2024). Phytochemical constituents and cumulative or antagonistic effects of crop plant organ combinations on free radical scavenging capacity and antioxidant compound content. Asian Journal of Chemical Sciences, 14(6), 10–28.

Nebié, R. H. C., Dabiré, C. M., Bationo, R. K., et al. (2024). Investigation on chemical composition and insecticidal activity against Anopheles gambiae of essential oil obtained by co-distillation of Cymbopogon citratus and Hyptis suaveolens from Western Burkina Faso. Malaria Journal, 23, 339.

Abdoulaye, Y., Dabiré, C. M., Bationo, R. K., Ganamé, A., Noba, A., Koala, M., Palé, E., Nebié, R. H. C., Duez, P., & Nacro, M. (2024). Antioxidant activities, HPTLC and HPLC/MS characterization of some phenolic acids of Grangea maderaspatana root extracts from Burkina Faso. International Journal of Biological and Chemical Sciences, 18(3), 1152–1165.

Noba, A., Dabiré, C. M., Bationo, R. K., Bazié, B. S. R., Ouôba, P., Koala, M., Hema, A., Kabré, E., Palé, E., & Nacro, M. (2024). Free radical scavenging activity and HPLC-MS identification of major anthocyanin in ripe Ziziphus mucronata fruit collected in Burkina Faso. International Journal of Biological and Chemical Sciences, 18(2), 691–705.

Nur Adi Saputra | Nanotechnology | Pioneer Researcher Award

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Dr. Nur Adi Saputra | Nanotechnology | Pioneer Researcher Award

Researcher | National Research and Innovation Agency | Indonesia

Dr. Nur Adi Saputra is a distinguished researcher at the National Research and Innovation Agency (BRIN), Indonesia, recognized for his pioneering work in materials science with a particular focus on renewable and sustainable materials derived from biomass. Over his four-year research career, Dr. Saputra has made remarkable strides in developing porous carbon-based materials tailored for energy storage, catalysis, and environmental applications. Holding both a master’s and a Ph.D. in Forestry from Yeungnam University and IPB University, respectively, he has successfully integrated forestry biomass utilization with advanced materials engineering an approach that promotes circular economy principles and green innovation. Dr. Saputra’s scientific contributions are reflected in his 27 publications, which have collectively garnered 81 citations from 77 documents and an h-index of 5 (Scopus). His work on activated carbon for supercapacitor and catalytic applications demonstrates his expertise in controlling surface chemistry and porosity to enhance electrochemical performance. Beyond academic research, he has applied his findings to industrial practice, notably collaborating with PT. NUI HIA PRIMA on large-scale activated carbon production. His inventive approach is further supported by 17 patents (published or under process), showcasing his strong innovation potential in material synthesis and process engineering. As an Editorial Member of the Journal of Soil Science and Agroclimatology, Dr. Saputra contributes to the peer-review process and academic discourse in environmental material applications. He is also engaged in collaborative research with IPB University, Riau University, and international initiatives such as the Southeast Asia–Europe Joint Funding Scheme for Research and Innovation, reflecting his growing global scientific presence. His research not only enhances understanding of carbon material synthesis but also provides practical solutions for sustainable energy technologies. Through his scientific rigor and innovative outlook, Dr. Nur Adi Saputra is emerging as a leading young researcher driving Indonesia’s advancement in renewable materials and green technology.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Saputra, N. A., Pari, G., Priyono, S., Basri, E., Ismanto, A., & Harjadi, B. (2025). Superheated steam-assisted nanoarchitectonics of red calliandra-delivered activated carbon for supercapacitor application. Journal of the Indian Chemical Society, 102, 101894.

Saputra, N. A., Pari, G., Syafii, W., Nawawi, D. S., Maddu, A., Chitraningrum, N., & Priyono, S. (2025). Preparation and application of a novel supercapacitor from chemically activated red calliandra. Materials Chemistry and Physics, 320, 130104.

Subramani, M. C., Budiman, I., Subyakto, S., Chitraningrum, N., & Saputra, N. A. (2025). A review on one-pot multicomponent organic reactions using carbon quantum dots as versatile heterogeneous catalyst. Topics in Catalysis, 68(1–36), 1–36.

Siburian, K. Y., De Nasti, A. N., Sidauruk, E. R., Oktaviano, H. S., Mitan, N. M. M., & Saputra, N. A. (2024). Effect of CoO loading on electrochemical properties of activated carbon from sugarcane bagasse. Journal of Electrochemical Science and Engineering, 14(6), 705–717.

Efiyanti, L., Saputra, N. A., Indrawan, D. A., Pranoto, I. W. B., Hastuti, N., Fadhlulloh, Z., & Budiman, I. (2023). The mesoporous biosilica catalyst from Andong bamboo leaf for direct-pyrolysis reaction. Rasayan Journal of Chemistry, 16(1), 1–10.