Somnath Nandi | Data-informed Decision Making | Best Researcher Award

Published on 09/10/202509/10/2025 by Research Data Analysis

Mr. Somnath Nandi | Data-informed Decision Making | Best Researcher Award

Jadavpur University | India

Mr. Somnath Nandi is a PhD Research Scholar at the Additive Manufacturing Research Group (AMRG), CSIR-Central Mechanical Engineering Research Institute (CMERI), India, affiliated with the Academy of Scientific and Innovative Research (AcSIR). His research focuses on functionally graded material (FGM) development, mechanical and tribological characterization, and process optimization in Wire Arc Additive Manufacturing (WAAM). He has contributed to several funded projects, including the design of SS-Ni transition metals-based electrodes for green hydrogen generation, bimetallic structure development for Tata Steel, and remanufacturing of railway brake shoes. Mr. Nandi holds an M.E. in Production Management from Jadavpur University and a B.Tech in Mechanical Engineering from the Government College of Engineering and Textile Technology, Berhampore. His published works in reputed SCI-indexed journals such as Progress in Additive Manufacturing, Materials Letters, and Journal of Materials Engineering and Performance highlight his expertise in optimization, digital twins, and sustainable manufacturing. His research interests span metal additive manufacturing, tribology, hybrid manufacturing, and digital monitoring systems. A GATE-qualified engineer (2021, 2022), he is an active member of professional societies including IIM and IAENG. Mr. Nandi has authored 10+ scientific documents, achieving an h-index of 3 with over 45 citations, reflecting his growing impact in the field of advanced manufacturing.

Profiles : Orcid | Google Scholar

Featured Publications

Biswas, S., Nandi, S., Hussain, M. S., Mandal, A., & Mukherjee, M. (2025). “Influence of heat input on the interfacial characteristics of SS316L–In718 bi-metallic deposition for wire arc additive manufacturing.” Materials Letters.

Nandi, S., Biswas, S., & Mukherjee, M. (2025). “Optimization of Wire Arc Additive Manufacturing Parameters for Steel–Aluminum Bimetallic Interface: A Comparative Study of Metaheuristic and Machine Learning Approaches.” Journal of Materials Engineering and Performance, 35(6).

Ahammed, A. A. C. P., Nandi, S., Paul, A. R., Sreejith, B., MJ, J., & Mukherjee, M. (2025). “On the Characteristic Evaluation of Bimetallic Interface of Carbon Steel (EN31) and Aluminium (AA4043) for Wire Arc Additive Manufacturing.” Metals and Materials International, 1–18.

Pendokhare, D., Nandi, S., & Chakraborty, S. (2025). “A comparative analysis on parametric optimization of abrasive water jet machining processes using foraging behavior-based metaheuristic algorithms.” OPSEARCH, 1–42.

Dieter Vollath | Data collection | Best Researcher Award

Published on 02/09/202502/09/2025 by Research Data Analysis

Prof. Dr. Dieter Vollath | Data collection | Best Researcher Award

NanoConsulting | Germany

Prof. Dr. Dieter Vollath is a distinguished physicist and nanotechnology expert with a profound impact on the development and industrial application of nanoscale materials. As the Head of NanoConsulting in Stutensee, Germany, he has played a key role in advancing innovative nanomaterial technologies, bridging the gap between fundamental research and practical solutions. His extensive career spans leadership roles in research institutions and universities across Europe and the USA, contributing significantly to the fields of material science, nanostructured materials, and their technological implementation. Prof. Vollath has combined academic excellence with industry-focused innovation, influencing modern approaches to nanomaterial synthesis, characterization, and functionalization.

Professional Profile

SCOPUS

Education

Prof. Vollath pursued his academic journey in physics at the University of Technology in Vienna, Austria, where he developed a strong foundation in material sciences and nanotechnology. He successfully completed his diploma and doctoral studies at this institution, focusing on the theoretical and experimental aspects of materials engineering. His commitment to education extended further as he acquired the right to teach at a university level, demonstrating his expertise and scholarly contributions to the field. This academic background has served as the cornerstone for his pioneering work in nanomaterials and advanced materials engineering.

Experience

Prof. Vollath has amassed a remarkable career marked by his contributions as both a scientist and leader in the field of nanotechnology. He spent several decades at Forschungszentrum Karlsruhe in Germany, where he began as a scientist and progressed to group leader, spearheading innovative research initiatives. Additionally, he has held significant positions internationally, including a notable research tenure at the Los Alamos National Laboratory in the USA. His academic involvement includes his longstanding affiliation with the University of Technology in Graz, Austria, where he contributed to research, teaching, and mentoring emerging scientists. As the founder and head of NanoConsulting, he has provided strategic guidance and expert solutions for the development of nanomaterials in industrial and research sectors.

Research Interest

Prof. Vollath’s research is deeply rooted in nanotechnology and materials science, with a particular emphasis on nanostructured materials, their synthesis, and practical application. His work focuses on understanding the fundamental properties of nanomaterials and applying this knowledge to develop innovative solutions for various industries, including electronics, energy storage, coatings, and catalysis. He is widely recognized for advancing the field of nanoparticle synthesis, exploring their physicochemical behaviors, and integrating them into real-world technological processes. His research also includes investigating the surface chemistry and structural stability of nanomaterials, bridging the gap between theoretical insights and applied science.

Awards and Recognitions

Prof. Vollath has been honored with numerous awards and recognitions for his outstanding contributions to nanotechnology and material sciences. His pioneering work has been acknowledged internationally through invitations to collaborate with leading research laboratories and academic institutions. His achievements reflect not only his innovative research but also his dedication to fostering collaboration between academic research and industrial applications. These accolades underscore his role as a thought leader in advancing the global understanding and utilization of nanostructured materials.

Publications

Stamate, E., Culea-Florescu, A.-L., Miron, M., Piraianu, A.-I., Dumitrascu, A.G., Fulga, I., Fulga, A., Patrascanu, O.S., Iancu, D., Ciobotaru, O.C., et al. (2025). “Simulation of Agglomeration Processes Using Stochastic Processes—Case of Limited Space in a Box” in Micro.

Stamate, E., Culea-Florescu, A.-L., Miron, M., Piraianu, A.-I., Dumitrascu, A.G., Fulga, I., Fulga, A., Patrascanu, O.S., Iancu, D., Ciobotaru, O.C., et al. (2023). “Agglomeration of particles stored in a box” in Firephyschem.

Stamate, E., Culea-Florescu, A.-L., Miron, M., Piraianu, A.-I., Dumitrascu, A.G., Fulga, I., Fulga, A., Patrascanu, O.S., Iancu, D., Ciobotaru, O.C., et al. (2021). “Surface stress of gold nanoparticles revisited” in International Journal of Solids and Structures.

Stamate, E., Culea-Florescu, A.-L., Miron, M., Piraianu, A.-I., Dumitrascu, A.G., Fulga, I., Fulga, A., Patrascanu, O.S., Iancu, D., Ciobotaru, O.C., et al. (2021). “Criteria ruling particle agglomeration” in Beilstein Journal of Nanotechnology.

Stamate, E., Culea-Florescu, A.-L., Miron, M., Piraianu, A.-I., Dumitrascu, A.G., Fulga, I., Fulga, A., Patrascanu, O.S., Iancu, D., Ciobotaru, O.C., et al. (2020). “Surface energy of Au nanoparticles depending on their size and shape” in Nanomaterials.

Stamate, E., Culea-Florescu, A.-L., Miron, M., Piraianu, A.-I., Dumitrascu, A.G., Fulga, I., Fulga, A., Patrascanu, O.S., Iancu, D., Ciobotaru, O.C., et al. (2020). “Agglomerates of nanoparticles” in Beilstein Journal of Nanotechnology.

Stamate, E., Culea-Florescu, A.-L., Miron, M., Piraianu, A.-I., Dumitrascu, A.G., Fulga, I., Fulga, A., Patrascanu, O.S., Iancu, D., Ciobotaru, O.C., et al. (2020). “Determination of particle size distributions and transformation enthalpies from the temperature course of a phase transformation” in Journal of Nanoparticle Research.

Stamate, E., Culea-Florescu, A.-L., Miron, M., Piraianu, A.-I., Dumitrascu, A.G., Fulga, I., Fulga, A., Patrascanu, O.S., Iancu, D., Ciobotaru, O.C., et al. (2019). “Energy distribution in an ensemble of nanoparticles and its consequences” in Beilstein Journal of Nanotechnology.

Conclusion

Prof. Dr. Dieter Vollath stands as a visionary in the field of nanotechnology, whose contributions have shaped both academic research and industrial practice. With a career spanning multiple decades, he has seamlessly combined theoretical expertise with practical innovation, inspiring future generations of researchers and driving advancements in material sciences. Through his leadership at NanoConsulting and his affiliations with esteemed research institutions, he continues to promote the integration of nanotechnology into modern industries, creating pathways for sustainable and high-performance materials of the future.

Hassan Abdollah-Pour | Materials Failure Analysis | Best Researcher Award

Published on 25/08/202525/08/2025 by Research Data Analysis

Assoc. Prof. Dr. Hassan Abdollah-Pour | Materials Failure Analysis | Best Researcher Award

Semnan University | Iran

Assoc Prof Dr. Hassan Abdollah-Pour is a distinguished scholar and Associate Professor at the Faculty of Materials and Metallurgical Engineering, Semnan University, Iran. With a prolific record of publications in high-impact journals, he has established himself as an expert in advanced materials engineering, surface coatings, corrosion resistance, and metallurgical innovations. Over the course of his academic and research career, he has contributed significantly to the development of novel materials, high-performance coatings, and innovative processing techniques, advancing both theoretical knowledge and industrial applications in materials science.

Professional Profile

GOOGLE SCHOLAR

Education

Dr. Abdollah-Pour has received extensive academic training in materials and metallurgical engineering from leading Iranian institutions. He earned his Ph.D. in Materials Engineering from the Iran University of Science and Technology (IUST), where his doctoral research focused on the thermal stability and mechanical properties of aluminum matrix composites reinforced with intermetallic compound particles. Prior to that, he completed his Master’s degree in Metallurgical Engineering at Amir Kabir University of Technology, concentrating on plasma nitriding of austenitic stainless steels, and his Bachelor’s degree in Materials Engineering from Sahand University of Technology, where he conducted research on the metallurgical applications of Iranian chromite ores.

Experience

As an Associate Professor, Dr. Abdollah-Pour has played an instrumental role in academic leadership, research mentorship, and industrial collaboration. His academic journey includes years of teaching and supervising research projects related to materials characterization, coating technologies, and metallurgical process optimization. He has contributed as a principal investigator and co-investigator in numerous projects involving advanced coatings, additive manufacturing, spark plasma sintering, laser cladding, and friction stir processing. He has extensive experience working with surface engineering, nano-structured materials, and tribological performance of advanced alloys, particularly in high-temperature and corrosive environments. His collaborations span across interdisciplinary fields including mechanical engineering, surface science, and nanotechnology.

Research Interests

Dr. Abdollah-Pour’s research interests are multifaceted and span across materials design, surface modification, and performance optimization of engineering alloys and composites. He focuses on the development and characterization of protective coatings such as MCrAlY and MAX phase coatings for turbine blades, exploration of plasma electrolytic oxidation (PEO) techniques for zirconium and magnesium-based alloys, and enhancement of corrosion, wear, and thermal resistance in critical components. His works on aluminum matrix composites, titanium carbide (TiC) reinforced materials, and Cr2AlC coatings have contributed to improving the lifespan and mechanical performance of industrial components. He is also actively involved in friction stir welding, laser cladding, powder metallurgy, and the synthesis of nano/ultrafine-grained materials with tailored microstructures.

Awards and Recognition

Throughout his academic career, Dr. Abdollah-Pour has received recognition for his outstanding research contributions and publications. His extensive work in materials engineering has been published in reputed journals including Journal of Materials Engineering and Performance, Surface and Coatings Technology, Oxidation of Metals, and Materials. He has been involved in several funded projects and has received institutional and collaborative research support for advancing material science innovations. His scholarly influence is evident through numerous citations and collaborations with international and national research teams, reflecting the practical impact of his studies in aerospace, energy, and biomedical industries.

Publications

Pour, H.A., Lieblich, M., Lopez, A.J., Rams, J., Salehi, M.T., Shabestari, S.G. (2007). “Assessment of tensile behaviour of an Al–Mg alloy composite reinforced with NiAl and oxidized NiAl powder particles helped by nanoindentation” in Composites Part A: Applied Science and Manufacturing.

Kazempour-Liasi, H., Tajally, M., Abdollah-Pour, H. (2019). “Effects of pre-and post-weld heat treatment cycles on the liquation and strain-age cracking of IN939 superalloy” in Engineering Research Express.

Bakhshinezhad, H., Honarbakhshraouf, A., Abdollah-Pour, H. (2019). “A study of effect of vanadium on microstructure and mechanical properties of as-cast and austempered ductile iron” in Physics of Metals and Metallography.

Alvand, M., Naseri, M., Borhani, E., Abdollah, P.H. (2018). “Microstructure and crystallographic texture characterization of friction stir welded thin AA2024 Aluminum alloy” in Iranian Journal of Materials Science and Engineering.

Nazarian-Samani, M., Abdollah-Pour, H., Mirzaee, O., Kamali, A.R., et al. (2013). “Effects of Ni addition on the microstructure and properties of nanostructured copper–germanium alloys” in Intermetallics.

Rezaeian-Delouei, M., Abdollah-Pour, H., Tajally, M., Mousavizade, S.M. (2020). “An investigation of microstructure, wear and corrosion resistance of AZ31B–SiO₂–graphite hybrid surface composite produced by friction stir processing” in Materials Research Express.

Conclusion

Assoc Prof Dr. Hassan Abdollah-Pour is a leading figure in the field of materials and metallurgical engineering, known for his pioneering work in protective coatings, composite materials, and advanced surface treatments. His research has not only contributed to the academic body of knowledge but has also provided practical solutions for industries demanding enhanced performance under extreme conditions. With his commitment to innovation, interdisciplinary collaboration, and academic excellence, he continues to shape the future of materials engineering, guiding young researchers and driving forward industrially relevant scientific advancements.

Muhammad Tamoor | Data Analysis | Best Researcher Award

Published on 20/08/202520/08/2025 by Research Data Analysis

Dr. Muhammad Tamoor | Data Analysis | Best Researcher Award

Shenyang University of Technology | China

Dr. Muhammad Tamoor is a dedicated researcher and academic in the field of Chemical Engineering, with a strong focus on life cycle engineering, sustainability, and advanced computational methods. Currently serving as a Postdoctoral Researcher at Shenyang University of Technology, China, he has made notable contributions to the development of sustainable approaches in materials and energy systems. His academic career reflects a balanced blend of teaching, research, and leadership in international collaborations, positioning him as a promising scholar in sustainable development and green technologies.

Professional Profile

ORCID

Education

Dr. Tamoor earned his Ph.D. in Chemical Engineering from the University of Chinese Academy of Sciences, Beijing, with his research centered on life cycle analysis, biodegradation, and upcycling of plastics. His doctoral work emphasized strategy simulation and life cycle engineering as tools to address global challenges associated with plastic waste and circular economy solutions. Prior to his doctorate, he obtained a Master’s degree in Applied Mathematics from the University of Engineering and Technology, Taxila, where his research explored computational fluid dynamics and heat transfer phenomena. His interdisciplinary educational background, bridging chemical engineering with applied mathematics, provides him with a strong foundation in both theoretical modeling and applied sustainability research.

Experience

Professionally, Dr. Tamoor has held academic and research roles that highlight both his teaching abilities and his research acumen. He began his academic career as a Lecturer at COMSATS University Islamabad, Wah Campus, where he developed expertise in pedagogy and guided undergraduate students in engineering fundamentals. He has also contributed to professional training through specialized courses such as Object-Oriented Programming (C++), which he delivered at the Virtual University of Pakistan. Currently, he is engaged in a Postdoctoral position at Shenyang University of Technology, focusing on lifecycle assessment and techno-economic analysis of advanced concrete systems. His research and teaching experiences demonstrate his versatility and commitment to bridging theoretical knowledge with practical application.

Research Interest

Dr. Tamoor’s primary research interests revolve around sustainability, green process engineering, and life cycle assessment of industrial systems. He has actively contributed to projects examining geopolymer concrete, renewable energy infrastructures, and microbial biodegradation of plastics. His work also extends into computational domains, particularly computational fluid dynamics and population balance models, with applications in large-scale industrial processes such as bubble column reactors. In addition, he has acted as Guest Editor for the journals Frontiers in Manufacturing Technology and Frontiers in Sustainability, where he launched a special research topic on the role of life cycle engineering in developing a circular economy for plastics. His interdisciplinary focus reflects a strong vision for integrating environmental policy, techno-economic considerations, and innovative engineering solutions.

Awards

Throughout his career, Dr. Tamoor has been recognized for academic excellence and research achievements. He received the prestigious “Excellent International Graduate Award” from the Institute of Process Engineering, Chinese Academy of Sciences, acknowledging his outstanding scholarly contributions. He was also awarded the “Chinese Government Scholarship” by the Chinese Scholarship Council, reflecting his commitment to academic excellence at the international level. In addition, he has been honored by national initiatives in Pakistan, including recognition under the Prime Minister’s Laptop Scheme and certificates for participation in innovative research and computational sciences. These accolades highlight both his academic dedication and his potential as a global researcher in sustainability and engineering.

Publications

Tamoor, M., Xing, J. (2025). PET life cycle analysis development for environmental sustainability: global scenario. Environment, Development and Sustainability.

Tamoor, M., Samak, N.A., Xing, J. (2023). Life cycle assessment and policy for the improvement of net-zero emissions in China. Cleaner Engineering and Technology.

Tamoor, M., Samak, N.A., Xing, J. (2023). Pakistan toward Achieving Net-Zero Emissions: Policy and Roadmap. ACS Sustainable Chemistry & Engineering.

Tamoor, M., Samak, N.A., Yang, M., Xing, J. (2022). The Cradle-to-Cradle Life Cycle Assessment of Polyethylene terephthalate: Environmental Perspective. Molecules.

Tamoor, M., Kamran, M., Rehman, S., Farooq, A., Khan, R., Lee, J.R., Shin, D.Y. (2021). Modelling of Applied Magnetic Field and Thermal Radiations Due to the Stretching of Cylinder. Processes.

Conclusion

Dr. Muhammad Tamoor stands out as a dynamic and versatile researcher whose expertise bridges chemical engineering, sustainability, and computational modeling. His contributions to life cycle assessment, plastic biodegradation, renewable energy infrastructures, and sustainable concrete solutions reflect his commitment to addressing pressing global challenges. With his international research collaborations, editorial leadership, and recognized excellence in academia, Dr. Tamoor exemplifies the role of a modern scientist working toward sustainable technological advancements. His career trajectory indicates not only his capacity for innovation but also his dedication to nurturing interdisciplinary approaches for future generations of engineering and sustainability researchers.

International Research Data Analysis Excellence Awards | Award Winners 2023

Published on 06/12/202306/12/2023 by Research Data Analysis

Arash Azadeh | Best Researcher Award Winner 2023 🏆

Arash Azadeh : Interdisciplinary Data Insights👨‍🎓

Congratulations to Arash Azadeh of Interdisciplinary Data Insights for being honored with the Best Researcher Award at the International Research Data Analysis Excellence Awards! 🏆 Your dedication to excellence in data analysis has truly set a benchmark for researchers worldwide. Cheers to your outstanding achievements and contributions to the field!

Professional profile

Early Academic Pursuits:

Arash Azadeh's academic journey commenced with an undergraduate degree in Civil Engineering from Ferdowsi University of Mashhad (FUM), Iran. He further pursued a Master's degree in Structural Engineering from FUM and later obtained a Ph.D. in Civil Engineering from the Pontifical Catholic University of Rio de Janeiro (PUC-Rio), Brazil. Arash also pursued post-doctorate studies in Materials at the University of São Paulo (USP), Brazil.

Professional Endeavors:

Arash Azadeh's professional experience spans several roles, including serving as a Senior Structure Engineer in the offshore team at PetroPars Co. His responsibilities included overseeing structural documents issuance, construction supervision, and project coordination for offshore installations. Additionally, he worked as an Industrial Structures Designer at Poolad Co., contributing to the design of various industrial structures and substations.

Contributions and Research Focus:

Arash Azadeh has made significant contributions to the field of Civil Engineering, particularly in the area of bamboo research. His work is reflected in a series of journal articles and conference papers exploring topics such as bamboo shear test methods, bamboo densification effects, and the use of machine learning in bamboo phase quantification. His research emphasizes the influence of environmental factors, such as heat, on the mechanical properties of bamboo.

Accolades and Recognition:

Arash Azadeh's research has been recognized through numerous publications in reputable journals, including "Construction and Building Materials," "European Journal of Wood and Wood Products," and "Cellulose." His involvement in international conferences and workshops further demonstrates recognition within the academic community.

Impact and Influence:

Arash Azadeh's work in bamboo research has implications for sustainable construction materials. By investigating the mechanical properties of bamboo and its responses to environmental factors, his research contributes to the understanding of bamboo as a functional material in construction and engineering.

Legacy and Future Contributions:

As a researcher and educator, Arash Azadeh has shared his expertise through seminars, workshops, and lectures, both nationally and internationally. His research focus on non-conventional materials and sustainable development aligns with the evolving needs of the construction industry. Arash's legacy lies in his dedication to advancing knowledge in materials engineering and his potential to inspire future generations in the field.

In summary, Arash Azadeh's academic and professional journey reflects a commitment to research excellence, particularly in the innovative use of bamboo as a construction material, showcasing a blend of traditional and contemporary engineering principles.