Dr. Zahra Mongashti | Computational Chemistry | Research Excellence Award

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Dr. Zahra Mongashti | Computational Chemistry | Research Excellence Award

Master | Yasuj University | Iran

Dr. Zahra Mongashti is a physical chemistry researcher with expertise in computational and theoretical chemistry, focusing on electrochemistry, thermodynamic parameters, density function analysis, deformation density, and molecular confinement. Their work explores host–guest interactions, charge transfer processes, molecular encapsulation, and adsorption phenomena, employing advanced computational tools such as Gaussian, GaussView, AIM2000, Densitizer, and Origin. Notable studies include analyses of chlorinated hydrocarbons within C60 fullerene, lithium–oxygen interactions, halozhenal quinone thermodynamics, and methane–C60 interactions. They have published multiple theoretical studies, contributing to SCOPUS with 2 documents,  reflecting emerging yet impactful research in molecular modeling.

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Dr. Zouhair Salah | Membrane Technology | Environmental Chemistry Award

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Dr. Zouhair Salah | Membrane Technology | Environmental Chemistry Award

University of Sfax | Tunisia

Dr. Zouhair Salah is a chemist specializing in advanced membrane materials, photocatalysis, and adsorption technologies for wastewater treatment and pharmaceutical contaminant removal. His research focuses on graphene-oxide-based nanocomposite membranes, low-cost biosorbents, ceramic and polymeric membranes, and antifouling systems for sustainable water purification. He has published in leading journals including Emergent Materials, ChemistrySelect, Membranes, and Catalysis Science & Technology. His work contributes to environmental remediation and circular water reuse strategies. According to Scopus, he has 5 documents, 14 citations, and an h-index of 2; Google Scholar reports 16 citations and an h-index of 2.

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Prof. Gehad Genidy Mohamed | Nanochemistry | Research Excellence Award

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Prof. Gehad Genidy Mohamed | Nanochemistry | Research Excellence Award

Professor | Egypt-Japan University of Science and Technology | Egypt

Prof. Dr. Gehad Genidy Mohamed is an internationally recognized chemist whose research integrates inorganic, analytical, and materials chemistry with strong emphasis on metal complexes, Schiff base ligands, electrochemical sensors, nanomaterials, photocatalysis, and biomedical–environmental applications. Her work spans synthesis, structural characterization, molecular modeling, density functional theory, and electrochemical performance evaluation of advanced functional materials for sensing, catalysis, corrosion inhibition, drug interaction, and wastewater treatment. She has demonstrated significant contributions across interdisciplinary chemical sciences through high-impact publications and collaborations. According to Scopus, she has authored 462 documents, received 12,017 citations, and holds an h-index of 53, reflecting sustained global research influence and scientific excellence.

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Dr. Lalchand Patle | Food Chemistry | Best Researcher Award

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Dr. Lalchand Patle | Food Chemistry | Best Researcher Award

Associate Professor | Kavayitri Bahinabai Chaudhari North Maharashtra University Jalgaon |India

Dr. Lalchand Patle is a researcher in electronics and nanomaterials with interdisciplinary contributions spanning smart sensors, nanostructured metal-oxide semiconductors, photocatalysis, dye-sensitized solar cells, spectroscopy, machine learning, and biomedical sensing applications. His work integrates material synthesis, device fabrication, and data-driven techniques for applications in energy, food quality assessment, environmental monitoring, and healthcare diagnostics, including cancer detection. He has authored 10 documents indexed in Scopus, receiving 221 Scopus citations with an h-index of 6. According to Google Scholar, his research has accumulated 471 total citations, with an h-index of 9 and i10-index of 9, reflecting steady scholarly impact across applied electronics and materials research.

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Synthesis of Cu Doped ZnO Nanoparticles: Crystallographic, Optical, FTIR, Morphological and Photocatalytic Study

– Journal of Materials Science and Chemical Engineering, 2015 (171 citations)

Assoc. Prof. Dr. Zhile Wang | Industrial Chemistry | Research Excellence Award

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Assoc. Prof. Dr. Zhile Wang | Industrial Chemistry | Research Excellence Award

Associate Professor | Kunming University of Science and Technology | China

Assoc. Prof. Dr. Zhile Wang is an Associate Professor at Kunming University of Science and Technology specializing in condition monitoring and intelligent maintenance of rotating machinery, with a strong focus on nonlinear stochastic dynamics and control. His research addresses complex fault diagnosis challenges in rotating systems, particularly planetary bearings, through advanced signal processing and dynamic modeling approaches. He has proposed innovative methods based on tunable Q-factor wavelet transform (TQWT), optimal parameter selection indices, bandwidth-constrained decomposition strategies, and enhanced subband signal extraction using composite stochastic resonance techniques. These contributions significantly improve noise suppression and weak fault feature extraction under harsh operating conditions. His work has been widely recognized in leading international journals in mechanical engineering, acoustics, and instrumentation, with multiple publications identified as highly cited. Collectively, his research advances the reliability, safety, and intelligence of modern rotating machinery systems.

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Prof. Dr. Hongcai Gao | New Energy Materials | Best Researcher Award

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Prof. Dr. Hongcai Gao | New Energy Materials | Best Researcher Award

Professor | Beijing Institute of Technology | China

Prof. Dr. Hongcai Gao is a leading researcher in electrochemical energy storage, focusing on advanced battery materials for lithium-ion and sodium-ion batteries. His work integrates material design, electrochemical mechanisms, and practical energy applications, contributing significantly to next-generation energy storage technologies. He has published extensively in high-impact journals and is recognized for advancing sustainable energy materials. According to Google Scholar, his work has received 12,437 citations, with an h-index of 54 and 74 i10-index publications. Based on Scopus, he has 11,100 citations across 100 documents, with an h-index of 53, reflecting strong global research influence.

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Prof. Dr. Sundaram Singh | Photochemistry | Research Excellence Award

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Prof. Dr. Sundaram Singh | Photochemistry | Research Excellence Award

Professsor | Indian Institute of Technology (BHU) Varanasi | India

Prof. Dr. Sundaram Singh is a distinguished Professor of Chemistry at IIT (BHU), Varanasi, specializing in organic synthesis and multicomponent reactions. His research focuses on the development of eco-friendly and efficient methodologies, including phase transfer catalysis and superoxide ion-mediated reactions, for constructing bioactive heterocyclic compounds. He has authored numerous publications and book chapters, led several national research projects, and guided 16 Ph.D. students, contributing significantly to sustainable organic chemistry and innovative synthetic strategies.

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647

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Prof. Dr. Shuang-Yan Lang | Electrochemistry | Research Excellence Award

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Prof. Dr. Shuang-Yan Lang | Electrochemistry | Research Excellence Award

Professor | Institute of Chemistry, Chinese Academy of Sciences | China

Prof. Dr. Shuang-Yan Lang is a leading electrochemist specializing in operando studies of batteries and electrical energy storage technologies. Her research focuses on elucidating interfacial reaction and failure mechanisms, lithium–sulfur battery kinetics, and predictive performance modeling, contributing significantly to the development of high-energy-density and sustainable energy storage systems.

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Tunable structure and dynamics of solid electrolyte interphase at lithium metal anode
SY Lang, ZZ Shen, XC Hu, Y Shi, YG Guo, FF Jia, FY Wang, R Wen, LJ Wan Nano Energy, 2020 Elsevier

Prof. Dr. Thomas Blesgen | Meta-Materials | Best Research Award

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Prof. Dr. Thomas Blesgen | Meta-Materials | Best Research Award

Professor | University of Applied Sciences Bingen | Germany

Prof. Dr. Thomas Blesgen is a distinguished mathematician specializing in applied mathematics with a strong interdisciplinary focus spanning mathematical modelling, analysis, and computational methods. His research contributes significantly to the understanding of complex systems, including phase transitions, material behavior, and nonlinear processes arising in physics and engineering. With advanced expertise shaped through work in leading academic and research environments in Germany and abroad, he has developed impactful theoretical frameworks and contributed to high-level scientific discourse in analysis, variational methods, and continuum mechanics. His scholarship reflects a sustained commitment to bridging rigorous mathematical theory with real-world applications, producing research that supports innovations in materials science, geophysical modelling, and technological development. Through extensive academic collaborations and leadership in applied mathematics, he continues to influence both foundational research and practical advancements, fostering new approaches to modelling dynamic systems and contributing to the evolution of modern applied mathematical sciences.

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518

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36

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Dr. Fang Chen | Ferrofluid | Best Innovation Award

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Dr. Fang Chen | Ferrofluid | Best Innovation Award

Xihua University | China

Dr. Fang Chen focuses on the design, characterization, and application of advanced ferrofluids, with a particular emphasis on high-viscosity fluoroether oil-based systems engineered for extreme operational environments. Their work explores how nanoparticle concentration, carrier fluid molecular structure, and magnetic field response collectively influence rheological behavior, microstructural evolution, and magnetoviscous transitions. By uncovering the mechanisms that drive the shift from loose particle aggregates to continuous network structures, they provide critical insights into the factors governing viscosity, yield stress, and field-induced gelation in ultra-dense magnetic fluids. Their research bridges fundamental colloidal science with practical engineering needs, supporting the development of next-generation ferrofluid sealing materials capable of functioning under high pressure, corrosive media, and fluid-rich industrial conditions. Through systematic experimentation and materials innovation, they contribute to advancing magnetic fluid technologies that enhance reliability, performance, and adaptability in harsh and demanding applications.

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