Dr. Amit Shrikant Varale | Material Science | Best Researcher Award

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Dr. Amit Shrikant Varale | Material Science | Best Researcher Award

Dr. Amit Shrikant Varale is an accomplished Associate Professor in the Department of Chemistry at Nya. Tatyasaheb Athalye Arts, Ved. S.R. Sapre Commerce & Vid. Dadasaheb Pitre Science College, Devrukh. He holds a Ph.D. in Chemistry from Shivaji University, Kolhapur, and is a GATE-qualified scholar. His research focuses on physico-organic chemistry and material science, with significant contributions to kinetic and mechanistic studies. He has published research papers, book chapters, and edited a book on sustainable resource management. Dr. Varale holds a design patent for an innovative HPLC system and actively mentors students while contributing to academic and scientific communities.

Nya. Tatyasaheb Athalye Arts S.R.Sapre Commerce & Vid. Dadasaheb Pitre Science College Devrukh Autonomous | India

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Education

Dr. Amit Shrikant Varale holds a Bachelor of Science in Chemistry with Distinction from Shivaji University, Kolhapur, and a Master of Science in Chemistry with specialization in Organic Chemistry, also in First Class. He further earned a Bachelor of Education with Distinction from Karnatak University, Dharwad, highlighting his commitment to academic excellence and teaching. He was awarded a Doctorate in Chemistry from Shivaji University, Kolhapur, where he focused on physico-organic chemistry and mechanistic studies. Additionally, he qualified the competitive GATE examination conducted by IIT Bombay, demonstrating his strong analytical skills and deep understanding of chemistry and research methodologies.

Experience

Dr. Amit Shrikant Varale began his academic career as a Lecturer at Basavprabhu Kore Arts, Science and Commerce College, Chikodi, and subsequently served as a Lecturer at Devchand College, VCET Vasai, and CKT College, New Panvel. He later joined the Department of Chemistry at Nya. Tatyasaheb Athalye Arts, Ved. S.R. Sapre Commerce & Vid. Dadasaheb Pitre Science College, Devrukh, where he contributed significantly as an Assistant Professor before being promoted to Associate Professor. His extensive teaching and research experience reflect his dedication to guiding students, advancing chemical education, and contributing to the academic and scientific development of his institution.

Academic Contributions 

Dr. Amit Shrikant Varale has made significant scholarly contributions, including serving as Chief Editor of the book Sustainable Resource Management: Key Issues, Opportunities and Challenges and authoring seven book chapters focused on material science and physico-organic chemistry. He has presented research on kinetic and mechanistic studies at national and international conferences and actively participated as an organizer and secretary in academic seminars on renewable energy, environment, and medicinal chemistry. Additionally, he serves as an editorial board member for multiple peer-reviewed journals, contributing to the dissemination of quality research and advancing chemical sciences through active academic and professional engagement.

Awards and Recognitions

Dr. Amit Shrikant Varale has been honored with the prestigious Rajiv Gandhi National Fellowship, a recognition that highlights his academic excellence and commitment to research in the field of chemistry. This fellowship supported his advanced studies and enabled him to focus on significant research problems in physico-organic chemistry and material science. His dedication to advancing scientific understanding is reflected in his continuous efforts to publish quality research, mentor students, and contribute to the academic community. This recognition underscores his potential and reinforces his eligibility for honors such as the Best Researcher Award in recognition of his sustained contributions.

Research Focus 

Dr. Amit Shrikant Varale’s research primarily focuses on physico-organic chemistry and material science, with special emphasis on kinetic and mechanistic studies of oxidation reactions involving acid hydrazides. His work explores thermodynamic parameters, reaction mechanisms, and the development of innovative analytical approaches for understanding complex chemical processes. He has successfully completed funded research projects and continues to contribute to advancing knowledge in the field. As a research guide, he mentors students in experimental design and scientific inquiry, encouraging innovation and problem-solving. His contributions bridge fundamental chemistry with practical applications, promoting progress in materials research and organic reaction mechanisms.

Publications

Synthesis, Mechanistic Interpretation and Kinetic Approach of m-Toluic Acid Hydrazide by Thallium(III) in Acidic Medium
Author: A. S. Varale
Journal: Oxidation Communications 38 (3), 1213-1220, 2015

Oxidation of p-Methoxy Benzoic Acid Hydrazide by Thallium (III) in Acidic Medium (A Kinetic and Mechanistic Study)
Author: A. V. Y. Varale
Journal: Oriental Journal of Chemistry 29 (2), 519-524, 2013

Residual Chlorine Concentrations in Underground Water Samples Collected from Tube Wells of Nipani Town
Authors: A. Varale, Y. Varale
Journal: Universal Journal of Environmental Research and Technology 2 (1), 105-107, 2012

Oxidation of Picolinic Acid Hydrazide by Thallium(III) in Acidic Medium: A Kinetic and Mechanistic Approach
Author: A. S. Varale
Journal: Oxidation Communications 38 (4), 1562-1569, 2015

Oxidation of Benzoic and n-Butyric Acid Hydrazides by Thallium (III) in Acidic Medium – A Kinetic and Mechanistic Approach
Author: H. D. V. Amit S.
Journal: International Journal of Grid and Distributed Computing 13 (02), 119-125, 2020

An Evaluation of Physico-Chemical Parameters of Tube Well Water from Devrukh City, M.S. India
Author: D. Y. A. Varale
Journal: International Journal of Applied and Pure Science and Agriculture 6 (3), 1-9, 2020

Oxidation of p-Amino Benzhydrazide to the Corresponding Acid by Thallium (III) in 1,4-Dioxane Medium – A Kinetic and Mechanistic Approach
Authors: V. Y. Sonawane, A. S. Varale

Conclusion

Dr. Amit Shrikant Varale has demonstrated consistent academic excellence, impactful research, and innovative contributions in the fields of physico-organic chemistry and material science. His record of publications, funded projects, patent, editorial work, and active participation in conferences reflect a strong commitment to advancing knowledge and mentoring future scientists. He possesses the qualities of a dedicated researcher, innovator, and educator, making him a highly suitable and deserving candidate for the Best Researcher Award.

Assoc. Prof. Dr. Mingzhu Song | Nanomaterials | Best Researcher Award

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Assoc. Prof. Dr. Mingzhu Song | Nanomaterials | Best Researcher Award

School of Preclinical Medicine | Chengdu University | China

Assoc. Prof. Dr. Mingzhu Song is an accomplished materials scientist and researcher at the School of Preclinical Medicine, Chengdu University, where he has made significant contributions to the fields of nanomedicine, tumor immunotherapy, and advanced drug delivery systems. With a strong academic foundation in Materials Science and Engineering, Dr. Song has served as a senior visiting scholar at Chiang Mai University and Georgia State University, where he collaborated with international teams and expanded his research horizons. His work focuses on the preparation of multifunctional nanomedicine delivery systems, transitioning from single-drug carriers to multifunctional, smart-responsive materials with hierarchical and core–shell structures. By combining structural innovation and active immune dual-targeting surface modifications, his research addresses critical clinical challenges, including poor drug targeting, low therapeutic efficacy, and high recurrence rates in tumor treatment. Dr. Song’s research on anti-tumor immune response represents a paradigm shift, transforming “cold tumors” into “hot tumors,” improving immunotherapy response rates, and establishing long-term anti-tumor immune memory. He leads multiple research projects, including grants from the National Natural Science Foundation of China and the Natural Science Foundation of Sichuan Province, focusing on photodynamic-immunological synergistic therapy and ROS-triggered ferroptosis-based cancer treatments. As a mentor, Dr. Song actively guides postgraduate students in entrepreneurship, bridging academic innovation and real-world application. He currently serves as a youth editorial board member for several international academic journals, including iMeta, Exploration, Food & Medicine Homology, Science of Traditional Chinese Medicine, and Current Pharmaceutical Analysis, where he contributes to shaping the future of scientific publishing. Dr. Song is also a member of the Chinese Society of Biochemistry and Molecular Biology and the Chinese Society for Cell Biology. With over a decade of research experience, multiple Chinese patents, and a growing body of highly cited publications in top-tier journals such as Nano-Micro Letters, Coordination Chemistry Reviews, and Theranostics, Dr. Song has positioned himself as a leading figure in precision tumor immunotherapy research. His interdisciplinary approach integrates materials science, immunology, and oncology, providing a scientific basis for developing next-generation therapies that are safer, more effective, and more personalized. His work not only pushes the boundaries of scientific discovery but also provides practical solutions to some of the most pressing challenges in modern cancer treatment, making him an outstanding candidate for the Best Researcher Award.

Profile: ORCID

Featured Publications

Collagenase Degradable Biomimetic Nanocages Attenuate Porphyromonas gingivalis Mediated Neurocognitive Dysfunction via Targeted Intracerebral Antimicrobial Photothermal and Gas Therapy
Authors: Zhang, YF; Liu, K; Zhao, L

Brain Targeting Bacterial Extracellular Vesicles Enhance Ischemic Stroke Therapy via Efficient ROS Elimination and Suppression of Immune Infiltration
Authors: Sun, MD; Ma, JH; Zhao, L

Microneedles Loaded with L-Arginine-Modified Puerarin-Derived Carbon Nanoparticles Improved Treatment of Diabetic Wound via Photothermal and Nitric Oxide-Based Gas Therapy
Authors: Su, XC; Geng, XR; Zhao, L

Modelling Analysis of Dietary Behaviors and Oral Health Status to Assess the Impact on the Mental Well-Being of Elderly Individuals: A Cross-Sectional Survey Study
Authors: Huang, C; Song, MZ; Yu, XP

Molecularly Imprinted Nanoparticles Hitchhiking on Neutrophils for Precise Treatment of Ischemic Stroke
Authors: Lv, RZ; Li, F; Zhao, L

Modelling Analysis of Career Control Sources and Critical Thinking among Nursing Undergraduates during the Epidemic: A Cross-Sectional Survey Study
Authors: Xiao, Y; Zhao, LR; Huang, C

Assoc. Prof. Dr. Trayan Stamov | Engineering Design | Best Researcher Award

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Assoc. Prof. Dr. Trayan Stamov | Engineering Design | Best Researcher Award

Assoc. Prof. Dr. Trayan G. Stamov is a leading scholar and industrial designer at the Technical University of Sofia, Bulgaria. With a PhD in Industrial Design and extensive practical experience in vehicle and product design, he has successfully bridged the gap between academic research and industry applications. His work integrates engineering design, neural networks, and emotional design concepts to develop innovative approaches in product aesthetics and functionality. He is a recipient of multiple design awards and is ranked among the Top 10 Designers in Bulgaria, with recognition among the Top 40 Designers worldwide in Lighting Products Design.

Technical University of Sofia | Bulgaria

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Education

Dr. Stamov earned his PhD, MS, and BS degrees in Industrial Design from the Technical University of Sofia, Bulgaria. His academic training provided him with expertise in design theory, engineering principles, and practical problem-solving. This strong foundation enabled him to pursue advanced research on neural networks, stability analysis, and their application in industrial and vehicle design. His educational background supports his unique interdisciplinary approach that blends mathematics, computational modeling, and industrial creativity.

Professional Experience

Dr. Stamov is currently an Associate Professor of Industrial Design at the Technical University of Sofia, where he teaches multiple design-related courses and mentors students in innovative engineering solutions. His professional experience includes consulting for The-Glass-Co in Greece and industrial design work at MEGATEX AD in Bulgaria. He has completed design training with BRABUS GmbH in Germany, contributing to projects for brands like Range Rover, Jaguar, and Mercedes-Benz. His professional roles merge teaching, research, and industry engagement, significantly influencing both academia and practice.

Awards and Honors

Assoc. Prof. Dr. Trayan Stamov has been widely recognized for his exceptional contributions to industrial design and engineering innovation. He has received prestigious international design awards, including top distinctions in lighting product design, and has consistently been ranked among the leading designers both nationally and globally. His participation spans major exhibitions, conferences, and fairs across Europe and Asia, showcasing his work in design excellence, architecture, and vehicle styling. His achievements also include recognition in creative competitions, design biennials, and training programs with renowned automotive companies, highlighting his commitment to advancing design research, education, and practical applications.

Research Focus

Dr. Stamov’s research focuses on combining engineering design principles with mathematical modeling, particularly using neural networks, impulsive control systems, and fractional calculus to optimize product design and emotional response. He investigates how form, symmetry, and user emotion can be mathematically modeled to create better product experiences. This multidisciplinary research impacts industrial design, ergonomics, vehicle styling, and smart product development, aligning science with user-centered innovation.

Publications

Impulsive Control Discrete Fractional Neural Networks in Product Form Design: Practical Mittag-Leffler Stability Criteria
Authors: Stamov, T.
Journal: Applied Sciences (Switzerland), 2024

Practical Stability Criteria for Discrete Fractional Neural Networks in Product Form Design Analysis
Authors: Stamov, T.
Journal: Chaos, Solitons and Fractals, 2024

Fractional-Order Impulsive Delayed Reaction-Diffusion Gene Regulatory Networks: Almost Periodic Solutions
Authors: Stamov, T.; Stamov, G.; Stamova, I.
Journal: Fractal and Fractional, 2023

Impulsive Controllers Design for the Practical Stability Analysis of Gene Regulatory Networks with Distributed Delays
Authors: Cao, J.; Stamov, T.; Stamov, G.; Stamova, I.
Journal: Fractal and Fractional, 2023

Lyapunov Approach to Manifolds Stability for Impulsive Cohen–Grossberg-type Conformable Neural Network Models
Authors: Stamov, T.; Stamov, G.; Stamova, I.; Gospodinova, E.
Journal: Mathematical Biosciences and Engineering, 2023

Discrete Bidirectional Associative Memory Neural Networks of the Cohen–Grossberg Type for Engineering Design Symmetry Related Problems: Practical Stability of Sets Analysis
Authors: Stamov, T.
Journal: Symmetry, 2022

Lipschitz Stability Analysis of Fractional-Order Impulsive Delayed Reaction-Diffusion Neural Network Models
Authors: Stamova, I.; Stamov, T.; Stamov, G.
Journal: Chaos, Solitons and Fractals, 2022

Almost Periodic Dynamics in a New Class of Impulsive Reaction–Diffusion Neural Networks with Fractional-like Derivatives
Authors: Stamov, G.; Stamova, I.; Martynyuk, A.; Stamov, T.
Journal: Chaos, Solitons and Fractals, 2021

Conclusion

Assoc. Prof. Dr. Trayan G. Stamov is a highly accomplished academic and industrial designer whose research bridges engineering, mathematics, and design innovation. His international recognition, impactful publications, and interdisciplinary work demonstrate leadership and excellence in the field. He is exceptionally well-suited for the Best Researcher Award, as his contributions not only advance scientific understanding but also influence real-world product design and development.

Assist. Prof. Dr. Akhan Chaklikov | Materials Science | Best Researcher Award

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Assist. Prof. Dr. Akhan Chaklikov | Materials Science | Best Researcher Award

Assist. Prof. Dr. Akhan Chaklikov is an academic and researcher at the Kazakh-British Technical University, specializing in geology and exploration of mineral deposits. His work combines modern educational methodologies with rigorous scientific research, producing teaching manuals in geology and geophysics and guiding numerous undergraduate theses. His primary focus is on the petroleum potential of sedimentary basins in Southern and Central Kazakhstan, and he has contributed significantly to understanding their lithological and stratigraphic characteristics. His research findings are well-documented through peer-reviewed publications and have been validated by a patented utility model.

Kazakh-British Technical University | Kazakhstan

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Education

Assist. Prof. Dr. Akhan Chaklikov has an extensive academic foundation in geology and petroleum engineering. He earned his PhD in Oil and Gas Engineering from the Kazakh-British Technical University, focusing on the petroleum potential of sedimentary basins and the development of lithological and stratigraphic models for hydrocarbon exploration. Prior to this, he completed an MSc in Petroleum Geoscience for Exploration at The University of Manchester, gaining expertise in advanced exploration techniques and reservoir characterization. His academic journey began with a BS in Geology and Exploration of Mineral Deposits, where he built strong fundamentals in geological sciences and mineral exploration.

Professional Experience 

Assist. Prof. Dr. Akhan Chaklikov has been serving as a Senior Lecturer at the School of Geology, Kazakh-British Technical University, where he specializes in Geology and Exploration of Mineral Deposits. He has authored multiple teaching manuals in geology and geophysics, integrating modern educational technologies into the curriculum. He has successfully supervised over forty bachelor’s theses, all of which have been highly evaluated. His research explores the petroleum potential of sedimentary basins in Southern and Central Kazakhstan, leading to numerous publications and a patented utility model. He has contributed to state-funded research projects and earned his PhD in Petroleum Engineering.

Research Contributions

Dr. Chaklikov’s contributions lie in improving the understanding of hydrocarbon-bearing complexes and refining exploration strategies for underexplored sedimentary basins. His research results have been disseminated through numerous scientific publications in reputable journals and have influenced exploration practices in Kazakhstan. Furthermore, his patented method for quantitative determination of secondary calcite shows a commitment to developing practical solutions that bridge the gap between academic research and industrial application.

Research Focus

Dr. Chaklikov focuses on the petroleum potential of sedimentary basins in Southern and Central Kazakhstan. His work integrates lithological and stratigraphic modeling with hydrocarbon resource evaluation, aiming to enhance exploration efficiency and identify promising petroleum-bearing complexes. This research not only deepens geological understanding but also contributes to the strategic development of energy resources in the region.

Publications

Geological and Mineralogical Analysis of Zhuantobe Skarns in Central Kazakhstan Considering the Influence of Textural Features on Iron Ore Quality
Authors: Valeriy Korobkin, Assel Nygmanova, Zhamal Tulemissova, Akhan Chaklikov
Journal: Applied Sciences

Secondary Calcite in Carbonate Reservoirs of Oil Fields: A Method for Its Quantitative Determination
Authors: V. V. Korobkin, Zh. Serikovna Tulemissova, I. B. Samatov, A. Ye. Chaklikov
Journal: Kazakhstan Journal for Oil & Gas Industry

Deformation Changes in the Famennian–Tournaisian Carbonate Rocks in the Northwestern Marginal Fault Zone of the Caspian Basin
Authors: V. V. Korobkin, Zh. S. Tulemissova, A. E. Chaklikov
Journal: Geodynamics & Tectonophysics

Specifics of the Geological Structure of the Alakol Basin and the Choice of Drilling Well Design
Authors: Akhan Ye. Chaklikov, Valeriy V. Korobkin, Abdulakhat A. Ismailov, Mikhail M. Buslov, Zhamal S. Tulemissova
Journal: Kazakhstan Journal for Oil & Gas Industry

Late Paleozoic – Mesozoic Tectonic Evolution and Prospects of Hydrocarbon Exploration in the Alakol Sedimentary Basin (Kazakhstan)
Authors: V. V. Korobkin, A. Ye. Chaklikov, A. A. Ismailov, Zh. S. Tulemissova
Journal: Geodynamics & Tectonophysics

Results of the Study of Epigenetic Changes of Famennian–Tournaisian Carbonate Rocks of the Northern Marginal Shear Zone of the Caspian Syneclise (Kazakhstan)
Authors: Valeriy Korobkin, Akhan Chaklikov, Zhamal Tulemissova, Iskander Samatov, Yelena Dobrovolskaya
Journal: Minerals

Peculiarities of Dynamics of Hypergenic Mineral Transformation of Nickel Weathering Crusts of Ultramafic Rocks of the Kempirsay Group of Deposits in Western Kazakhstan
Authors: Korobkin V., Samatov I., Chaklikov A., Tulemissova Z.
Journal: Minerals

Conclusion

Assist. Prof. Dr. Akhan Chaklikov exemplifies a dedicated researcher who bridges academic knowledge with real-world applications in petroleum geology. His educational background, research productivity, patented innovations, and commitment to mentoring students collectively demonstrate his high caliber as a scientist. These qualities make him a highly suitable candidate for the Best Researcher Award, reflecting excellence in both scientific discovery and societal contribution.

Mr. Arif Aziz | Thermodynamics of Materials | Best Researcher Award

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Mr. Arif Aziz | Thermodynamics of Materials | Best Researcher Award

Mr. Arif Aziz is a PhD student at Harbin Engineering University specializing in mechanical and power engineering with a focus on turbomachinery. He holds a Bachelor’s in Mechanical Engineering and a Master’s in Power Engineering and Engineering Thermophysics. His work explores advanced two-phase flow dynamics and working fluid mixtures in closed Brayton cycle compressors, with contributions to conference proceedings and peer-reviewed journals. His research is directed toward enhancing compressor performance and improving power cycle efficiency for applications in next-generation energy systems.

Mr. Arif Aziz | Harbin Engineering University | China

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Education

Mr. Aziz completed his Bachelor’s degree in Mechanical Engineering, followed by a Master’s degree in Power Engineering and Engineering Thermophysics, where he focused on aerodynamic analysis and optimization of compressors. Currently, he is pursuing his PhD at Harbin Engineering University in the same field, concentrating on developing optimized compressor designs for binary gas mixtures like helium-xenon and helium-nitrogen. His educational journey reflects a progressive specialization in fluid mechanics and turbomachinery design, providing a solid academic foundation for high-level research.

Experience

Mr. Arif Aziz has developed extensive experience in the field of turbomachinery and advanced power cycles through both academic research and practical design work. His expertise lies in two-phase flow analysis, compressor optimization, and the use of binary gas mixtures such as helium-nitrogen and helium-xenon for closed Brayton cycle applications. He has completed research projects on axial flow compressor optimization and is currently engaged in the design and performance evaluation of compressors for advanced energy systems. His work has been presented at academic conferences and published in peer-reviewed journals, contributing to the advancement of thermal engineering knowledge.

Research Contributions

Mr. Aziz has completed a research project on the optimization of an axial flow compressor and is presently engaged in a project investigating the thermodynamic and aerodynamic behavior of binary gas mixtures in closed Brayton cycle compressors. His research aims to enhance efficiency, stability, and power density in advanced energy systems. With publications in international journals such as Case Studies in Thermal Engineering and Journal of Hydrogen Energy, he contributes valuable insights into energy-efficient turbomachinery systems.

Research Focus

Mr. Aziz’s primary research focus lies in understanding and improving two-phase flow dynamics and working fluid interactions in compressors for closed Brayton cycles. His studies target helium-based mixtures to optimize cooling, efficiency, and power density, which are vital for nuclear and solar-thermal power generation. By combining experimental and computational techniques, he aims to deliver novel compressor designs that address energy efficiency challenges in next-generation power systems.

Publications

Optimization of an Axial Flow Compressor Cooling: A Numerical Study on Enhanced Wet Compression Technology
Authors: Arif Aziz, Ghulam Ishaque, Naseem Ahmad, Muhammad Haris

CO2 Capture Using Mixed Amines: Experimental DFT Investigation with Focus on Improvements in Cyclic Efficiency and NO Interference
Authors: Muhammad Haris, Arif Aziz, Muhammad Sohail, Waseem Sardar

Aerodynamic Performance Investigation of an Axial Flow Compressor Under Water Ingestion
Authors: Ghulam Ishaque, Qun Zheng, Naseem Ahmad, Arif Aziz

The Influence of the Casing Grooves on the Performance of an Axial Compressor
Authors: Naseem Ahmad, Ghulam Ishaque, Arif Aziz, Qun Zheng

Adaptive Multiplexing Technique for Mobile Networks Based on SNR
Authors: Abdul Ahad Dilshad, Muhammad Irfan, Adil Malik, Arif Aziz

Conclusion

Mr. Arif Aziz is an emerging researcher with a strong academic background, focused research direction, and contributions to improving energy system performance through turbomachinery innovations. His work is impactful for future clean energy solutions and demonstrates the potential for broader applications in advanced power cycles. These qualities collectively make him a suitable and competitive candidate for the Best Researcher Award.

Dr. Suchit Sarin | Materials Characterization Techniques | Best Researcher Award

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Dr. Suchit Sarin | Materials Characterization Techniques | Best Researcher Award

Dr. Suchit Sarin is a materials engineering researcher with more than twelve years of academic and research experience in advanced materials characterization, process development, and microstructural analysis. His expertise covers electron microscopy, laser surface processing, coatings, and thermophysical property evaluation. With a strong academic record and significant contributions in nanostructure design, functional materials, and surface engineering, he has published widely in reputed journals and presented at international conferences. His work combines experimental insight with computational modeling, bridging fundamental science and applied materials engineering.

Dr. Suchit Sarin | University of Nebraska Lincoln | United States

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Education

Dr. Sarin earned his Ph.D. in Materials Engineering from the University of Nebraska–Lincoln, specializing in ultrafast laser surface processing and nanostructure growth mechanisms. He also holds an M.S. by Research and an M.Tech in Metallurgical Engineering and Steel Technology from the Indian Institute of Technology Bombay, where he worked on lightweight high-strength steels and computational modeling of niobium alloys. His undergraduate training in Materials Science and Metallurgical Engineering provided him with a strong technical foundation. His academic performance demonstrates consistent excellence across international institutions.

Professional Experience

Dr. Sarin has served as Instrument Manager for the FEI Helios NanoLab 660 DualBeam SEM/FIB at the Nano-Engineering Research Core Facility, providing training and expertise in advanced materials characterization. He has worked as a research assistant at the Nebraska Center for Materials & Nanoscience, contributing to high-resolution TEM investigations. His professional trajectory includes roles at IIT Bombay and the Defence Metallurgical Research Laboratory, where he advanced coatings and alloy development for high-temperature applications. He has also taught and mentored undergraduate students, supporting research-led education.

Achievements

Dr. Suchit Sarin has demonstrated excellence through notable fellowships and academic achievements. He is a two-time recipient of the prestigious Boeing Company College of Engineering Fellowship, awarded in recognition of his outstanding research performance and academic contributions in materials engineering. Additionally, he secured All India Rank 53 out of 3000 candidates in the highly competitive GATE 2016 examination in Metallurgical Engineering, reflecting his strong technical foundation and intellectual capabilities. These accomplishments highlight his consistent academic excellence, research potential, and ability to stand out in competitive scientific environments.

Educational Projects

Dr. Suchit Sarin’s educational projects reflect a progressive and comprehensive research journey in materials science and engineering. His Ph.D. work at the University of Nebraska–Lincoln explored ultrafast laser processing on copper and aluminum, uncovering mechanisms of micro/nano-scale structure formation and advancing applications in heat transfer and functional coatings. At IIT Bombay, his Master of Science project developed lightweight steels with high strength and ductility, improving automotive efficiency. His Master of Technology project focused on computational modeling of electron beam melting of niobium alloys, while his Bachelor’s project investigated severe plastic deformation effects on 316L steel, achieving nanoscale grain refinement.

Research Focus

Dr. Sarin’s research focus lies in understanding and engineering micro- and nano-scale structures in functional materials using ultrafast laser processing, thin film deposition, and advanced characterization. He integrates experimental work with computational modeling to explore surface morphology, nanostructured coatings, and thermal management applications. His work on laser-induced nanostructures for heat transfer, energy conversion, and catalysis highlights his interdisciplinary approach. His research addresses critical challenges in materials design, including sustainability, performance enhancement, and innovative processing routes.

Publications

Plasma‐Assisted Synthesis of Methanol Through Hydrogenation of Carbon Dioxide With Non‐Noble Metal Mixed Oxide Catalysts
Authors: D. Choudhry, M. R. Winburn, S. Sarin, R. J. Chimentão, C. L. Cheung
Journal: ChemSusChem 18 (4), e202400776, 2025

Pool Boiling Performance of Surfaces Produced by Femtosecond Laser Surface Processing and Copper Hydroxide Nanoneedle Growth
Authors: J. Costa-Greger, G. Damoulakis, G. Kaufman, S. Sarin, C. Pettit, J. Shield, et al.
Journal: 2022 21st IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm), 2022

Functionalization of Copper for Enhanced Electrocatalytic Reduction of Carbon Dioxide via Ultrashort Pulse Laser Surface Processing
Authors: G. Kaufman, A. El-Harairy, S. Sarin, S. Nejati, J. E. Shield, C. Zuhlke
Journal: Laser-based Micro-and Nanoprocessing XVIII, Vol. 12873, pp. 183-192, 2024

Effect of Substrate on Spin‐Wave Propagation Properties in Ferrimagnetic Thulium Iron Garnet Thin Films
Authors: R. Timalsina, B. Giri, H. Wang, A. Erickson, S. Sarin, S. Lamichhane, S. H. Liou, et al.
Journal: Advanced Electronic Materials 11 (3), 2400398, 2025

Growth Mechanisms of Self-Organized Micro-and Nano-Scale Structures Around Ultrashort Pulse Laser Ablation Craters on Copper
Authors: S. Sarin, G. Kaufman, C. Zuhlke, J. E. Shield
Journal: Applied Surface Science, Article 163779, 2025

Utilizing Graph Theoretical Analysis to Quantify the Micro-and Nano-Structures Formed on Femtosecond Laser Processed Copper
Authors: D. Egbebunmi, S. Beigzadeh, S. Sarin, M. Anderson, J. Parmar, G. Kaufman, et al.
Journal: Surfaces and Interfaces 64, 106436, 2025

Logarithmic Trends in the Surface Characteristics of Femtosecond Laser Produced Self-Organized Microstructures on Silicon
Authors: A. Butler, R. A. Rajan, G. Kaufman, S. Sarin, J. Gerdes, G. Gogos, J. Shield, et al.
Journal: Laser-based Micro-and Nanoprocessing XIX, Vol. 13351, pp. 203-209, 2025

Quasi‐Periodic Surface Functionalization by Ultra‐Short Pulsed Laser Processing: Unlocking Superior Heat Transfer in Vapor Chambers
Authors: A. Pal, A. Mukhopadhyay, G. Kaufman, S. Sarin, J. E. Shield, G. Gogos, et al.
Journal: Advanced Functional Materials, Article 2508745, 2025

Conclusion

Dr. Suchit Sarin exemplifies excellence in materials science and engineering through his strong educational background, extensive research experience, impactful publications, and interdisciplinary focus. His innovative contributions to laser surface processing, nanostructure development, and advanced characterization position him as a deserving candidate for the Best Researcher Award. His work demonstrates both scientific depth and practical relevance, meeting all the criteria for this recognition.

Dr. Yin Liu | Material Simulation Techniques | Best Researcher Award

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Dr. Yin Liu | Material Simulation Techniques | Best Researcher Award

Dr. Yin Liu is an Associate Professor at Guangzhou Vocational University of Science and Technology. His academic background bridges communication engineering and pulping and papermaking engineering, with postdoctoral experience at the State Key Laboratory of Advanced Papermaking & Paper-based Materials. His expertise spans cognitive radio, paper structure modeling, ink penetration processes, data mining, and automation control in industrial applications. He has published in internationally reputed journals and actively contributes to interdisciplinary research that integrates materials science, environmental engineering, and automation.

Dr. Yin Liu | Guangzhou Vocational University of Science and Technology | China

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Education

Dr. Liu completed his Bachelor’s degree in Communication Engineering and Master’s in Information and Communication Engineering at Southwest University of Science and Technology. His doctoral studies at South China University of Technology focused on Pulping and Papermaking Engineering, where he specialized in three-dimensional simulation of paper structures and automation control for wastewater treatment. This educational journey reflects his ability to integrate communication systems expertise with materials and environmental engineering, providing a strong foundation for his diverse research focus.

Experience

Dr. Yin Liu has contributed significantly to research and academia through his professional journey. He began his career as a postdoctoral researcher at the State Key Laboratory of Advanced Papermaking & Paper-based Materials, where he focused on advanced simulation techniques, paper structure modeling, and automation control in papermaking and wastewater treatment processes. Later, he transitioned into academia as an Assistant Professor at Guangzhou Vocational University of Science and Technology, where he has been actively engaged in teaching, mentoring, and leading innovative research projects in material science, data mining, and industrial automation.

Research Contributions

Dr. Liu has authored significant works in leading journals such as Science of the Total Environment, Cellulose, Journal of Water Process Engineering, and Industrial & Engineering Chemistry Research. His studies cover greenhouse gas emissions modeling in wastewater treatment, multidirectional permeability simulation of fiber networks, intelligent fault diagnosis, and optimization of recycled wastepaper processes. These contributions combine theoretical modeling with practical applications, enhancing sustainability and industrial efficiency.

Academic Activities 

Dr. Yin Liu has actively participated in significant academic events, demonstrating leadership and scholarly engagement in his field. He served as deputy secretary general at the International Paper Physics Conference held in Guangzhou, contributing to the successful organization of the event. He has also delivered oral presentations at the China Control and Decision Conference in Chongqing, where he shared his expertise in communication and control systems. Additionally, he presented his research at the Doctor Salon of the State Key Laboratory of Pulp and Paper Engineering in Guangzhou, showcasing his innovative work on paper engineering and automation processes.

Research Focus

Dr. Liu’s current research interests include paper structure modeling, ink penetration process simulation, industrial data mining, and automation control technologies. He also integrates artificial intelligence and advanced simulation techniques into communication and papermaking systems, addressing critical issues in efficiency, sustainability, and environmental protection. His research aims to provide practical, real-world solutions to industrial and ecological challenges, reflecting a strong commitment to innovation and applied science.

Publications

Preliminary Modeling of Single Pulp Fiber Using an Improved Mass–Spring Method
Authors: Yin Liu; Wenhao Shen; Douglas W. Coffin; Tao Song; Jean-Francis Bloch; Jean-Pierre Corriou
Journal: Solids (2025-09)

Modeling Greenhouse Gas Emissions from Biological Wastewater Treatment Process with Experimental Verification: A Case Study of Paper Mill
Authors: Jiahui Han; Yin Liu; Wenqing Li; Feini Huang; Wenhao Shen; Tianlong Liu; Jean-Pierre Corriou; Panagiotis Seferlis
Journal: Science of The Total Environment (2024-05)

Multidirectional Permeability Simulation for Fiber Network Based on the Pore Structure 3D Characterization by CT Scanning
Authors: Yi Wang; Yin Liu; Jiaxian Chen; Jie Xu; Wenhao Shen; Jean-Pierre Corriou
Journal: Cellulose (2024-01)

SBR-Extended Kalman Filter Model-Based Fault Diagnosis and Signal Reconstruction for the Papermaking Wastewater Treatment Process
Authors: Guoqiang Niu; Yin Liu; Jing Zhou; Xing Fan; Zhenguo Chen; Jean-Pierre Corriou; Wenhao Shen; Mingzhi Huang
Journal: Journal of Water Process Engineering (2023-12)

Hybrid Intelligent Fault Diagnosis Model Based on Improved MPCA-V for Sensors in a Laboratory-Scale Wastewater Treatment Process
Authors: Yin Liu; Guoqiang Niu; Jing Zhou; Wenhao Shen; Jean-Pierre Corriou; Panagiotis Seferlis
Journal: Industrial & Engineering Chemistry Research (2022-12-21)

Statistical Reconstruction of 3D Paper Structure Using Simulated Annealing Algorithm Based on 2D Scanning Electron Microscopy Image
Authors: Jie Xu; Yin Liu; Jiaqin Li; Wenhao Shen; Jean-Pierre Corriou
Journal: Journal of Natural Fibers (2022-11-28)

Optimal Scheduling Ratio of Recycling Waste Paper with NSGAII Based on Deinked-Pulp Properties Prediction
Authors: Yin Liu; Wenhao Shen; Yi Man; Zhang Liu; Panos Seferlis
Journal: Computers & Industrial Engineering (2019-06)

Conclusion

Dr. Yin Liu demonstrates a unique blend of expertise in communication engineering, papermaking technology, wastewater treatment, and computational modeling. His strong academic foundation, diverse work experience, impactful publications, and forward-looking research in industrial sustainability make him an excellent candidate for the Best Researcher Award.

Prof. Xiao-Lin Huang | Mechanics of Composite Structures | Excellence in Research Award

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Prof. Xiao-Lin Huang | Mechanics of Composite Structures | Excellence in Research Award

Prof. Xiao-Lin Huang is a professor at the School of Architecture and Transportation Engineering, Guilin University of Electronic Technology, China. He is a recognized researcher in applied mechanics, composite structures, and functionally graded materials. His career combines teaching, high-impact research, and supervision of advanced projects funded by national and provincial foundations. He has authored numerous peer-reviewed publications in leading journals, establishing himself as an authority in vibration analysis, buckling behavior, and dynamic stability of advanced materials and structures.

Prof. Xiao-Lin Huang | Guilin University of Electronic Technology | China

Profile

SCOPUS

Education

Prof. Huang earned his doctoral degree in engineering from Shanghai Jiao Tong University, after completing his master’s degree at Guangxi University and his bachelor’s degree at Tianjin University. His academic training spans mechanical and structural engineering, providing a robust theoretical and applied foundation. This multidisciplinary background has enabled him to pursue innovative research directions in mechanics, composites, and smart materials.

Experience

Prof. Huang has been a faculty member at Guilin University of Electronic Technology, where he has served as a professor and researcher in structural mechanics and composite engineering. He also gained international experience as a research associate at City University of Hong Kong, broadening his research collaborations and perspectives. Over his career, he has led multiple projects supported by the National Natural Science Foundation of China and regional science foundations, advancing both theoretical and applied engineering science.

Skills

Prof. Huang possesses strong expertise in nonlinear mechanics, vibration analysis, aeroelasticity, thermal post-buckling, and dynamic stability of composite and functionally graded materials. He is skilled in advanced numerical methods, structural optimization, and the development of piezoelectric and graphene-reinforced systems. His ability to integrate theoretical modeling with practical engineering applications demonstrates his multidisciplinary skillset.

Research Projects 

Prof. Xiao-Lin Huang has led and participated in several major funded research projects focusing on advanced structural mechanics and composite materials. His work includes projects supported by the National Natural Science Foundation of China and the Guangxi Natural Science Foundation. Key research areas involve the dynamic characteristics and optimization of axially moving functionally graded conical shells reinforced with graphene nanoplates, nonlinear aeroelasticity and flutter suppression of graded plates, and seismic isolation systems using piezoelectric materials. Additional projects focus on dynamic stability, structural design of complex shells, and the influence of water environments on graphene-reinforced conical structures.

Research Focus

His research focuses on the nonlinear dynamics, vibration, and stability of functionally graded materials, composite shells, and structures reinforced with advanced nanomaterials such as graphene platelets. He has contributed to the development of seismic isolation systems, aeroelastic analysis, and structural optimization for advanced engineering applications. His numerous publications in leading international journals reflect both depth and diversity, addressing key challenges in aerospace, mechanical, and civil engineering.

Publications

Multiphysics Analysis of Gas–Liquid Interaction in Triple-Screw Pumps: Impacts of Gas Volume Fraction on Transient Flow Dynamics and Rotor Mechanical Response
Authors: Xuejing Zhang, Guisheng Zhu, Yuwang Yao, Wei Han, Xiaolin Huang
Journal: ACS Omega (2025)

Nonlinear Vibration Analysis of Axially Moving Truncated Porous Composite Conical Shells Reinforced with Graphene Nanoplatelets
Authors: Xiaolin Huang, Nengguo Wei, Chengzhe Wang, Xuejing Zhang
Journal: Journal of Vibration Engineering and Technologies (2025)

Effect of Fiber Conductivity on Piezoresistive Behaviour of Geopolymer
Authors: Ma Bin, Zhang Yong, Huang Qiqin, et al.
Journal: Jianzhu Cailiao Xuebao – Journal of Building Materials (2024)

Conclusion

Prof. Xiao-Lin Huang represents a blend of academic excellence, technical expertise, and impactful research contributions in advanced mechanics and composite materials. His outstanding publication record, international collaborations, and contributions to structural stability and functional material systems make him a highly deserving recipient of the Excellence in Research Award.

Assoc. Prof. Dr. Moupiya Ghosh | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Moupiya Ghosh | Materials Science | Best Researcher Award

Assoc. Prof. Dr. Moupiya Ghosh is a dedicated researcher and academic in the field of Physics and Material Science, specializing in nanomaterials, nanomedicine, and drug delivery systems. She has established a strong academic and research career through impactful publications, international collaborations, and innovative contributions in nanoscience and biomedical applications. Her research outcomes demonstrate a blend of advanced material design with translational applications in health care and environmental sustainability.

Assoc. Prof. Dr Moupiya Ghosh | Institute of Engineering and Management University of Engineering and Management Kolkata | India

Profiles

SCOPUS

ORCID

GOOGLE SCHOLAR

Education

Dr. Ghosh earned her Ph.D. in Physics (Material Science) from the University of Burdwan with a thesis on the synthesis and characterization of nanomaterials, nanomedicines, and drug-conjugated nanocomposites for therapeutic applications. She holds a Master of Science in Physics with a specialization in Material Science from the University of Burdwan, graduating with distinction. She completed her Bachelor of Science in Physics (Honours) from Bankura Christian College under the University of Burdwan. Her consistent academic performance, marked by excellence from school to higher education, highlights her strong foundation in research and learning.

Experience

Dr. Ghosh has served as a Guest Lecturer at Bankura University, Assistant Professor at Amity University Kolkata, and Postdoctoral Fellow at the Indian Institute of Science. She later joined Brainware University, Kolkata, as an Assistant Professor and member of the Center for Multidisciplinary Research & Innovations. Currently, she is an Associate Professor at the Institute of Engineering and Management, Kolkata. Her academic journey demonstrates progression from teaching and mentoring to high-level research and institutional leadership.

Skills

She is highly skilled in nanomaterial synthesis, structural and microstructural characterization, and biomedical applications of nanocomposites. She has advanced expertise in techniques such as XRD, SEM-EDS, FTIR, UV-Visible, and fluorescence spectroscopy, along with computational tools like Origin, MAUD, VESTA, and ATOM. She is also proficient in academic writing, research supervision, and interdisciplinary collaborations, reflecting her ability to integrate technical depth with strong communication and leadership skills.

Book Chapter

Dr. Moupiya Ghosh has contributed valuable book chapters that highlight her expertise in nanomaterials and their biomedical applications. One chapter, “Noble Heterostructured Nanocomposites for Advanced Oxidation Processes in Dye-Containing Wastewater”, addresses environmental remediation through innovative nanostructures with enhanced photocatalytic performance. Another chapter, “Review on Antibacterial Activity of Silver Nanoparticle: Recent Advances and Future Scope”, provides an in-depth analysis of silver nanoparticles as effective antibacterial agents, emphasizing their mechanisms, therapeutic applications, and potential for clinical translation. Together, these chapters underline her strong research focus on sustainable technologies, nanomedicine, and future-oriented solutions bridging materials science with healthcare and environment.

Awards and Recognitions

Dr. Ghosh has been widely recognized for her academic and research excellence through multiple awards, including a University Gold Medal for Physics, an Outstanding Paper Award at a state-level science congress, and Best Oral Presentation Awards at several conferences. She has received prestigious national scholarships, international recognition through Best Researcher Awards, a Young Scientist Award, and Research Excellence Awards. She has also been honored with recognitions highlighting her role as an empowering woman in science, along with active contributions as an invited speaker, session chair, and editorial board member.

Research Focus

Her research concentrates on the synthesis and application of nanomaterials, nanocomposites, and drug delivery systems with biomedical and environmental significance. She has worked extensively on antibacterial, antifungal, photocatalytic, and therapeutic properties of nanomaterials. She has published over twenty-five international journal papers, authored book chapters, and presented at numerous international and national conferences, often receiving recognition for best presentations. Her work addresses both scientific innovation and societal challenges.

Publications

A Study on significant role of Ru on MWCNT-supported PtRu electrocatalysts for ethanol electro-oxidation
Authors: S Singh, M Ghosh, M Bose, S Saha, A Dutta
Journal: Ionics 29 (12), 5417-5430, 2023

Synthesis and characterization of metformin conjugated magnetic nanocomposite with enhanced activity against the human carcinoma cells
Authors: M Ghosh, S Mandal, S Paul, S Chakrabarty, A Roy, G Chakrabarti, …
Journal: Journal of Drug Delivery Science and Technology 87, 104781, 2023

Promoting role of europium on multi-walled carbon nanotube (MWCNT) supported platinum catalyst for ethanol electro-oxidation in direct alcohol fuel cell (DAFC)
Authors: S Singh, P Pal, M Ghosh, S Mukherjee, P Saha, A Dutta, S Basak
Journal: Journal of the Indian Chemical Society 101 (12), 101449, 2024

Metal oxide heterostructured nanocomposites for wastewater treatment
Authors: M Mondal, M Ghosh, H Dutta, SK Pradhan
Journal: Advanced Oxidation Processes in Dye-Containing Wastewater: Volume 1, 267-303, 2022

Synthesis and characterization of doxycycline-loaded magnetic nanocomposite with enhanced bactericidal activity
Authors: M Ghosh, S Mandal, S Das, A Chatterjee, D Datta, H Pal, U Acharya, …
Journal: Materials Today Communications 41, 111027, 2024

A new plasmonic bi-metallic nanomaterial embedded cellulose membrane for efficient single step removal of chemical and microbial impurities from river water with zero water wastage
Authors: P Saha, S Nandi, A Majumder, A Kapuria, S Koley, N Ahammed, S De, …
Journal: Journal of Environmental Chemical Engineering 13 (2), 115408, 2025

Enhanced electro-catalytic activity of carbon-supported PtRh nano-catalysts for ethanol electro-oxidation in low-temperature fuel cell
Authors: S Singh, M Ghosh, M Bose, A Dutta, S Saha, C Ghorui, AK Chaudhary
Journal: Ionics 31 (3), 2637-2655, 2025

Conclusion

Assoc. Prof. Dr. Moupiya Ghosh exemplifies the qualities of a leading researcher with a strong balance of academic distinction, impactful research, technical expertise, and global recognition. Her contributions to nanomaterials and their biomedical applications demonstrate innovation with direct societal benefits. Considering her outstanding publication record, significant awards, and international research visibility, she stands as a highly deserving candidate for the Best Researcher Award.

Prof. Dr. Byoung-Suhk Kim | High-Performance Materials | Best Researcher Award

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Prof. Dr. Byoung-Suhk Kim | High-Performance Materials | Best Researcher Award

Prof. Dr. Byoung-Suhk Kim is a distinguished professor at Jeonbuk National University in the Department of Organic Materials and Textile Engineering. With extensive international research experience, he has contributed significantly to the fields of polymer chemistry, carbon composite materials, and nanomaterials. His academic work spans energy nanomaterials, electrochemical systems, and functional materials, supported by impactful publications, editorial board memberships, and leadership in professional societies. His global collaborations and long-standing academic career highlight his influence in both research and education.

Prof. Dr. Byoung-Suhk Kim | Jeonbuk National University | South Korea

Profiles

SCOPUS

ORCID

GOOGLE SCHOLAR

Education

Prof. Kim obtained his Ph.D. in Polymer Chemistry from Hokkaido University, following his Master of Science and Bachelor of Science in Textile Engineering from Jeonbuk National University. His academic foundation is deeply rooted in materials science, bridging textile engineering with polymer chemistry and advanced nanomaterials. This strong academic background has provided him with the interdisciplinary expertise necessary for leading-edge innovations in organic materials and energy systems.

Experience

Prof. Kim has held prestigious positions across top global institutions. He has worked as a professor at Jeonbuk National University, with joint appointments in the Department of Carbon Composite Materials Engineering and the JBNU-KIST School. His international career includes postdoctoral research at Sogang University, the University of Connecticut, and the Max Planck Institute for Polymer Research as a Humboldt Fellow. He also served as a global COE researcher in Japan, a visiting scholar at the University of Pennsylvania, and a senior researcher at Kumho Petrochemical. This trajectory reflects global academic recognition and industrial relevance.

Skills

Prof. Kim is highly skilled in polymer synthesis, nanomaterials engineering, and electrochemical energy applications. He has advanced expertise in developing carbon fibers, functional nanofibers, biosensors, hydrogels, and hybrid composites. His proficiency extends to electrochemical energy storage and conversion systems, electrocatalysts, and nanostructured films. Beyond technical expertise, he has significant leadership skills in research management, editorial responsibilities, and professional society governance, contributing to both academic and industrial advancements.

Professional Activities

Prof. Kim has received numerous recognitions for his research and professional service. He serves on editorial boards of several high-impact international journals, including Discover Nano, Nanomaterials, and Molecules, and holds key leadership positions in Korean professional societies. His involvement in technical committees, government advisory groups, and evaluation panels reflects his influence on scientific policy and research development. These roles complement his academic achievements and highlight his standing as a leader in the scientific community.

Research Focus

His research focuses on electrochemical energy storage and conversion systems, including the development of supercapacitors, electrocatalysts, and energy nanomaterials. He also works on high-strength carbon fibers, nanostructured composites, and biosensors, emphasizing applications in sustainable energy and advanced functional materials. His research integrates polymer chemistry with nanotechnology to create innovative solutions for energy and biomedical challenges. These efforts demonstrate both fundamental contributions and practical applications.

Publications

Insights into low-impurity activated carbon materials for supercapacitors with high-voltage and ultra-long cycle stability
Journal: Composites Part B: Engineering (2025)

Green synthesis of activated carbons from machine-made Hanji as carbon precursor for high-rate supercapacitor and excellent sensor applications
Journal: Journal of Industrial and Engineering Chemistry (2025)

Crosslinked Aromatic Polyimides for High-Performance Heat-Dissipation Materials
Journal: Journal of Polymer Science (2025)

Effect of impurities in different activated carbon materials and their in-depth electrochemical analysis in supercapacitor coin-cell devices with organic electrolyte
Journal: Journal of Materials Chemistry A (2025)

A Simple and Efficient Non-Noble Cathode Catalyst Based on Carbon Hollow Nanocapsules Containing Cobalt-Based Materials for Anion Exchange Membrane Water Electrolyzer
Journal: Small (2025)

Effect of Boron and Iron at Various Concentrations on the Catalytic Graphitization of the Polyacrylonitrile Derived from the Polymerization of Acrylonitrile
Journal: Inorganics (2025)

In-Situ Polymerization for Catalytic Graphitization of Boronated PAN Using Aluminum and Zirconium Containing Co-Catalysts
Journal: Inorganics (2025)

Electrochemical sensors: Advances in bio-waste derived carbon materials and their applications
Type: Book Chapter (2025)

Rational Design of Ultrahigh-Loading Ir Single Atoms on Reconstructed Mn─NiOOH for Enhanced Catalytic Performance in Urea-Water Electrolysis
Journal: Small (2024)

Conclusion

Prof. Dr. Byoung-Suhk Kim exemplifies academic excellence, research innovation, and professional leadership in materials science, polymer chemistry, and nanotechnology. His contributions to electrochemical energy systems, nanomaterials, and functional composites are of high scientific and societal value. With strong global collaborations, editorial responsibilities, and recognition in both academia and industry, he is an outstanding and deserving candidate for the Best Researcher Award.