Khaja Hussain Shaik | Materials Science | Research Excellence Award

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Dr. Khaja Hussain Shaik | Materials Science | Research Excellence Award

Gyeongsang National University | South Korea

Dr. Khaja Hussain Shaik is a postdoctoral researcher in materials science and engineering with recognized expertise in nanomaterials, electrochemical energy storage, and optoelectronic materials. He holds doctoral training in electronic engineering with specialization in materials science, complemented by advanced education in chemistry, providing a strong interdisciplinary foundation. His professional experience spans postdoctoral and research scholar roles, contributing to high-impact projects in energy storage materials, nanosensors, and advanced functional materials, along with mentoring and laboratory leadership in academic environments. His research focuses on the design and synthesis of nanostructured oxides, carbon-based composites, and rare-earth-doped materials for supercapacitors, batteries, and photonic devices, resulting in a substantial portfolio of peer-reviewed publications with significant global citation impact. His contributions have advanced charge storage performance, device stability, and functional material design. He has received multiple prestigious research fellowships, dissertation and scholarship honors, and institutional recognitions for research excellence, reflecting sustained academic leadership, innovation, and strong potential for continued high-impact contributions to materials research.

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Featured Publications

 

Athanasios G. Mamalis | Materials Science | Academic and Industrial Collaboration Award

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Prof. Dr. Athanasios G. Mamalis | Materials Science | Academic and Industrial Collaboration Award

Scientific Director | Project Center for Nanotechnology and Advanced Engineering | Greece

Prof. Dr. Athanasios G. Mamalis is the Scientific Director of the Project Center for Nanotechnology and Advanced Engineering, a joint initiative of the Greek National Research Center “Demokritos” and the Russian Kurchatov Institute, and Emeritus Professor, Founder of the Laboratory of Manufacturing Technology at the National Technical University of Athens, Greece. A graduate in Mechanical and Electrical Engineering from the National Technical University of Athens, he earned his M.Sc. and Ph.D. in Mechanical Engineering from the Victoria University of Manchester Institute of Science and Technology. Dr. Mamalis has extensive industrial experience as Chief Engineer and Technical Manager in steelworks across Germany and Greece, complemented by long-standing collaborations with international industry including American, British, German, European, Japanese, Chinese, ex-Soviet, Hungarian, and Greek enterprises. He has held visiting professorships at Cambridge University, Universität Hannover, RWTH Aachen, and Carleton University, and full professorships at Michigan Technological University and the National Technical University of Athens. His research spans mechanics, manufacturing technology, precision and ultraprecision engineering, nanotechnology, ferrous and non-ferrous materials from macro- to nanoscale, powder production, biomechanics, vehicle structural safety, energy, environment, and industrial sustainability, resulting in over 32 books and monographs, 12 textbooks, 630 refereed journal and conference publications, and two patents. He has received numerous global recognitions, including election to several academies of sciences, multiple honorary professorships and doctorates, and fellowships and editorial roles in international scientific organizations and journals, reflecting his exceptional contributions to both theoretical and applied engineering and his enduring impact on global scientific and industrial advancement.

Profiles:  Scopus | ORCID

Featured Publications

1. Electroconsolidation method for fabrication of fine-dispersed high-density ceramics. Nanotechnology Perceptions, 2024.

2. Peculiarities of obtaining nanostructured materials compacted by the method of hot pressing due to the passage of direct electric current. Nanotechnology Perceptions, 2024.

3. Algorithmic foundations of optimization using finite element modeling of high-speed grinding technology in application to 3D micro-level models. Nanotechnology Perceptions, 2024.

4. Computer simulations of static stress-strain states for long-length pressurised pipes with external protective thin nanoengineered coating under nonuniform temperature fields. Nanotechnology Perceptions, 2024.

5. Magnetic shielding materials for electric vehicles. Nanotechnology Perceptions, 2024.

Muhammad Sarfraz | Materials Science | Best Researcher Award

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Dr. Muhammad Sarfraz | Materials Science | Best Researcher Award

Associate Professor | University of Engeineering and Technology | Pakistan

Dr. Muhammad Sarfraz is an accomplished researcher and Associate Professor in Polymer and Process Engineering, with extensive experience in membrane technologies and polymeric materials. He has led the design and fabrication of advanced laboratory setups, contributed to curriculum development, and actively mentored undergraduate and postgraduate students. His research focuses on innovative solutions for carbon dioxide separation, polymer composites, and advanced membrane processes, addressing both industrial and environmental challenges. He has participated in numerous international conferences, workshops, and training programs, demonstrating his commitment to continuous learning and knowledge dissemination. Dr. Sarfraz’s work reflects a strong integration of experimental expertise and applied research, producing practical outcomes while advancing fundamental understanding in his field. His scholarly contributions are significant, as reflected in Scopus, showcasing measurable research impact: 2,525 citations, 167 documents, and an h-index of 29.

Profiles: Scopus | Google Scholar | ORCID

Featured Publications

1. M. Sarfraz, “Synergistic effect of adding graphene oxide and ZIF-301 to polysulfone to develop high performance mixed matrix membranes for selective carbon dioxide separation from post …,” Journal of Membrane Science, vol. 514, pp. 35–43, 2016.

2. M. Sarfraz, “Synergistic effect of incorporating ZIF-302 and graphene oxide to polysulfone to develop highly selective mixed-matrix membranes for carbon dioxide separation from wet post …,” Journal of Industrial and Engineering Chemistry, vol. 36, pp. 154–162, 2016.

3. M. Sarfraz, “A novel zeolitic imidazolate framework based mixed-matrix membrane for efficient CO2 separation under wet conditions,” Journal of the Taiwan Institute of Chemical Engineers, vol. 65, pp. 427–436, 2016.

4. M. Sarfraz, “Combined Effect of CNTs with ZIF-302 into Polysulfone to Fabricate MMMs for Enhanced CO2 Separation from Flue Gases,” Arabian Journal of Science and Engineering, vol. 41, pp. 2573–2582, 2016.

5. A. Sohail, M. Sarfraz, S. Nawaz, Z. Tahir, “Enhancing carbon capture efficiency of zeolite-embedded polyether sulfone mixed-matrix membranes via annealing process,” Journal of Cleaner Production, vol. 399, 136617, 2023.

Miguel Campos Jurado | Materials Science | Best Researcher Award

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Prof. Miguel Campos Jurado | Materials Science | Best Researcher Award

PhD Candidate at University of Córdoba, Spain

Prof. Miguel Campos Jurado is a Mechanical Engineer and PhD candidate whose career reflects a strong balance of industrial innovation, academic research, and teaching excellence. With extensive experience in the design and development of HVAC systems for residential, industrial, and automotive applications, he has consistently translated engineering knowledge into practical, impactful solutions. His current research focuses on hybrid polymer–metal composites, additive manufacturing, and advanced materials, areas with significant potential for innovation in mechanical engineering. Alongside his research, he serves as a vocational teacher, where he integrates theoretical and practical learning, mentors students, and fosters the next generation of engineers. His career highlights creativity, problem-solving, and interdisciplinary collaboration, demonstrating his ability to bridge industry and academia. Passionate about lifelong learning and teamwork, Prof. Campos Jurado exemplifies the qualities of a researcher dedicated not only to advancing knowledge but also to shaping education and contributing to sustainable engineering practices.

Professional Profile 

ORCID Profile 

Education

Prof. Miguel Campos Jurado has pursued a strong academic foundation in engineering, complemented by continuous professional growth. He is currently undertaking his PhD in Mechanical Engineering at the University of Córdoba, focusing on hybrid polymer–metal composites, additive manufacturing, and interfacial adhesion. His doctoral work integrates advanced materials science with mechanical testing and statistical analysis to develop innovative engineering solutions. Alongside his doctoral studies, he has completed a Bachelor’s Degree in Mechanical Engineering, reinforcing his technical knowledge in design, manufacturing, and materials. His education demonstrates a consistent focus on bridging theoretical research with practical engineering applications. Through specialized training in experimental design, surface engineering, and mechanical characterization, he has gained comprehensive expertise that strengthens both his research and teaching. His academic journey reflects not only intellectual rigor but also a commitment to continuous learning, innovation, and applying scientific research to real-world engineering challenges.

Experience

Prof. Campos Jurado’s professional experience reflects a rich combination of industrial practice and academic involvement. He has held significant roles in the design, development, and management of HVAC systems across leading companies, where he contributed to advanced projects in energy efficiency, climate control systems, and sustainable mobility. His responsibilities included product innovation, prototype validation, and coordination with multidisciplinary teams, ensuring high technical standards and compliance with industry requirements. Beyond his industrial expertise, he serves as a vocational teacher, where he designs curricula, teaches HVAC systems, refrigeration, hydraulics, and energy efficiency, and guides students in project-based learning. His role in aligning education with labor market needs demonstrates a strong ability to merge professional practice with teaching excellence. Through his career, he has successfully combined innovation, leadership, and knowledge transfer, making his experience a cornerstone in his growth as both a researcher and educator.

Research Focus

Prof. Campos Jurado’s research focuses on advancing mechanical engineering through hybrid polymer–metal composites, additive manufacturing, and surface engineering. His doctoral work investigates interfacial adhesion between polymers and metals, aiming to develop high-performance materials with applications in energy, transportation, and manufacturing industries. He explores advanced processes such as fused filament fabrication, mechanical testing, and material characterization using SEM and profilometry to evaluate structural performance. His research also integrates statistical methods like ANOVA and experimental design to ensure rigorous analysis and reproducibility. By combining industrial insight with academic inquiry, his work emphasizes practical applications that can lead to sustainable innovations. His interest in advanced materials and manufacturing reflects not only a drive for technological advancement but also a commitment to addressing global challenges in energy efficiency, resource optimization, and engineering sustainability. His research trajectory positions him as a promising contributor to cutting-edge developments in mechanical and materials engineering.

Award and Honor

While Prof. Campos Jurado’s profile primarily highlights his education, teaching, and research contributions, his career itself reflects the qualities worthy of recognition through awards and honors. His work in industrial innovation has contributed to major product developments in HVAC systems, including modular architectures and energy-efficient solutions for sustainable transport and large-scale infrastructure. As a teacher, he has been entrusted with responsibilities such as evaluating professional competences and guiding students, highlighting the trust placed in him by educational authorities and institutions. His ongoing research at the doctoral level demonstrates a commitment to scientific excellence that is often recognized in academic and industrial forums. Though specific awards are not detailed in his profile, his blend of industrial achievements, research innovation, and dedication to teaching positions him as a strong candidate for academic and professional honors, particularly in areas of engineering research, education, and applied technological development.

Publication Top Notes

  • Title: Manufacturing of Polymer–Metal Composite by Fused Filament Fabrication: Adhesion of PLA and PETG on Aluminum
    Authors: Miguel Campos-Jurado; Óscar Rodríguez-Alabanda; Guillermo Guerrero-Vacas
    Year: 2025

  • Title: DE LA DESMOTIVACIÓN A LA EXCELENCIA: TALLER LEAN EN FP
    Authors: Miguel Campos
    Year: 2025

  • Title: SESGOS COGNITIVOS EN IA: REGULACIÓN Y RIESGOS EN LA EDUCACIÓN
    Authors: Miguel Campos
    Year: 2025

Conclusion

Prof. Miguel Campos-Jurado demonstrates a strong balance of industrial expertise, academic research, and teaching excellence. His publications highlight both technical innovation in polymer–metal composites and a broader engagement with educational methodologies and the ethical dimensions of technology. This blend of engineering research and educational insight reflects his versatility and commitment to advancing knowledge across multiple domains. While citation counts are not yet available for these recent works, the diversity of topics and reputable publication outlets indicate growing scholarly impact. Overall, his profile shows clear potential for continued contributions in mechanical engineering research, education, and interdisciplinary collaboration, positioning him as a promising candidate for recognition through research awards and academic honors.