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.

Citation Metrics (Google Scholar)

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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.

Nikos Bikiaris | Materials Science | Distinguished Scientist Award

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Dr. Nikos Bikiaris | Materials Science | Distinguished Scientist Award

Postdoc researcher | Aristotle University of Thessalonik | Greece

Dr. Nikos Bikiaris is an accomplished researcher specializing in polymer chemistry, nanocomposites, and pharmaceutical technology, with a strong focus on the synthesis and characterization of bio-derived and biodegradable polymers, copolymers, and blends. His work bridges material science and pharmaceutical applications, particularly in the development of novel cosmeceutical formulations. He has gained significant expertise in advanced characterization techniques such as FTIR, NMR, XRD, DSC, TGA, GPC/SEC, and SEM, and his practical skills extend to polymer processing methods like spray drying and melt mixing. Dr. Bikiaris has contributed to numerous national and EU-funded projects, presenting his findings at international scientific conferences, and building a reputation as a collaborative and innovative researcher. His publications in high-impact journals reflect his commitment to advancing sustainable materials with real-world applications. His measurable research impact is demonstrated through Google Scholar metrics: Cited by All 1333, Since 2020 1326; h-index All 13, Since 2020 12; i10-index All 19, Since 2020 18.

Profile: Google Scholar

Featured Publications

1. E. Balla, V. Daniilidis, G. Karlioti, T. Kalamas, M. Stefanidou, N. D. Bikiaris, et al., “Poly (lactic Acid): A versatile biobased polymer for the future with multifunctional properties—From monomer synthesis, polymerization techniques and molecular weight increase,” Polymers, vol. 13, no. 11, p. 1822, 2021.

2. A. Vlachopoulos, G. Karlioti, E. Balla, V. Daniilidis, T. Kalamas, M. Stefanidou, et al., “Poly (lactic acid)-based microparticles for drug delivery applications: An overview of recent advances,” Pharmaceutics, vol. 14, no. 2, p. 359, 2022.

3. N. D. Bikiaris, I. Koumentakou, C. Samiotaki, D. Meimaroglou, D. Varytimidou, et al., “Recent advances in the investigation of poly (lactic acid)(PLA) nanocomposites: Incorporation of various nanofillers and their properties and applications,” Polymers, vol. 15, no. 5, p. 1196, 2023.

4. N. D. Bikiaris, G. Michailidou, M. Lazaridou, E. Christodoulou, E. Gounari, et al., “Innovative skin product emulsions with enhanced antioxidant, antimicrobial and UV protection properties containing nanoparticles of pure and modified chitosan with encapsulated …,” Polymers, vol. 12, no. 7, p. 1542, 2020.

5. N. D. Bikiaris, N. M. Ainali, E. Christodoulou, M. Kostoglou, T. Kehagias, et al., “Dissolution enhancement and controlled release of paclitaxel drug via a hybrid nanocarrier based on mpeg-pcl amphiphilic copolymer and fe-btc porous metal-organic framework,” Nanomaterials, vol. 10, no. 12, p. 2490, 2020.

Zhiping Xu | Materials Science | Best Researcher Award

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Dr. Zhiping Xu | Materials Science | Best Researcher Award

CEO at Beijing Heisen Lab Intelligence Technology Co., Ltd, China

Dr. Zhiping Xu is an accomplished researcher in materials science and engineering with a strong record of academic, industrial, and entrepreneurial achievements. He earned his Ph.D. in Materials Science from Tsinghua University and has contributed significantly to the study of polymer degradation, nanocomposites, and high-performance materials. His research excellence is demonstrated through numerous first-author publications in high-impact international journals, participation in prestigious international conferences, and multiple awarded patents that highlight his ability to translate research into practical innovations. Beyond academia, Dr. Xu has shown leadership as a founder of technology companies, bridging the gap between scientific discovery and industry application. His work reflects both theoretical depth and applied relevance, contributing to the advancement of sustainable and durable materials. With his combination of scholarly contributions, innovation, and entrepreneurial vision, Dr. Xu exemplifies the qualities of a modern researcher poised to make lasting contributions to materials science and technology.

Professional Profile 

Google Scholar | Scopus Profile

Education

Dr. Zhiping Xu has pursued a solid academic journey in materials science and engineering, beginning with his undergraduate studies at Southwest Jiaotong University, where he specialized in materials science. He then advanced to Jilin University for his master’s degree, focusing on textile engineering, which gave him a strong foundation in applied materials research. His academic path culminated in a doctoral degree at Tsinghua University, where he specialized in materials science and engineering within the Department of Chemical Engineering. Throughout his education, he combined rigorous coursework with hands-on research, developing both technical expertise and a broad scientific perspective. His leadership roles during his academic career, such as serving in student associations, provided him with valuable experience in collaboration and innovation. This diverse academic background not only deepened his knowledge of polymers and composites but also shaped his ability to approach scientific challenges with creativity, precision, and interdisciplinary insight.

Experience

Dr. Zhiping Xu’s research primarily centers on polymer degradation, nanocomposites, and advanced high-performance materials. His work has explored the mechanisms of photodegradation and photooxidation in polymers, particularly polypropylene and PMMA composites, with a focus on the role of nanosilica and surface-modified fillers. Through experimental and analytical approaches, he has contributed to understanding the interfacial behaviors that influence polymer stability and performance under various environmental conditions. His studies extend to the fabrication and mechanical characterization of continuous fiber-reinforced composites, where he has developed innovative methods for improving strength and durability. In addition, his research addresses the practical applications of advanced polymers in industrial and engineering contexts, reflecting both scientific depth and technological relevance. With numerous peer-reviewed publications, patents, and conference presentations, his research focus demonstrates a balance between fundamental material science and applied engineering, positioning him as a forward-looking researcher with a strong impact on polymer innovation.

Research Focus

Dr. Zhiping Xu has received recognition for his scholarly achievements and innovative contributions in the field of materials science. His active participation in international conferences, such as the International Symposium on Analytical and Applied Pyrolysis, earned him honors like the Excellent Poster Award, which highlights the quality and significance of his research. Beyond this, his numerous patents demonstrate his ability to transform laboratory research into practical technologies, bringing academic recognition and industrial value. Several of these patents have already been authorized and applied, showcasing his success in bridging scientific innovation with real-world applications. His leadership roles and entrepreneurial ventures further highlight the honors of trust and responsibility placed upon him in academic and professional circles. Collectively, these awards and distinctions underline not only his technical expertise but also his reputation as a capable and impactful researcher. They reflect his dedication, innovation, and growing influence in the field.

Award and Honor

Dr. Zhiping Xu is an emerging leader in materials science whose academic and research journey exemplifies excellence, innovation, and impact. With educational training across prestigious institutions, he has built a strong foundation in polymers, nanocomposites, and high-performance materials. His research has significantly advanced the understanding of polymer degradation and the design of durable, sustainable composites, with outcomes reflected in high-quality publications and multiple patents. Recognition at international conferences and success in translating research into industrial applications further underscore his capability and global relevance. Beyond his technical expertise, his leadership in student associations and entrepreneurial ventures demonstrates his vision to connect academia and industry. His blend of scholarly achievement, practical innovation, and leadership qualities make him a well-rounded researcher with the potential to influence materials science at both theoretical and applied levels. Overall, Dr. Xu’s contributions position him as a strong candidate for recognition through distinguished research awards.

Publication Top Notes

  • Title: Nanoconfinement controls stiffness, strength and mechanical toughness of β-sheet crystals in silk
    Authors: S. Keten, Z. Xu, B. Ihle, M.J. Buehler
    Year: 2010
    Citations: 1555

  • Title: Carbonized Silk Fabric for Ultrastretchable, Highly Sensitive, and Wearable Strain Sensors
    Authors: C. Wang, X. Li, E. Gao, M. Jian, K. Xia, Q. Wang, Z. Xu, T. Ren, Y. Zhang
    Year: 2016
    Citations: 945

  • Title: Ultrafast viscous water flow through nanostrand-channelled graphene oxide membranes
    Authors: H. Huang, Z. Song, N. Wei, L. Shi, Y. Mao, Y. Ying, L. Sun, Z. Xu, X. Peng
    Year: 2013
    Citations: 892

  • Title: Selective ion penetration of graphene oxide membranes
    Authors: P. Sun, M. Zhu, K. Wang, M. Zhong, J. Wei, D. Wu, Z. Xu, H. Zhu
    Year: 2013
    Citations: 850

  • Title: Controlled nanocutting of graphene
    Authors: L. Ci, Z. Xu, L. Wang, W. Gao, F. Ding, K.F. Kelly, B.I. Yakobson, P.M. Ajayan
    Year: 2008
    Citations: 595

  • Title: Understanding water permeation in graphene oxide membranes
    Authors: N. Wei, X. Peng, Z. Xu
    Year: 2014
    Citations: 523

  • Title: Mechanical and thermal transport properties of graphene with defects
    Authors: F. Hao, D. Fang, Z. Xu
    Year: 2011
    Citations: 482

  • Title: Selective Trans-Membrane Transport of Alkali and Alkaline Earth Cations through Graphene Oxide Membranes Based on Cation−π Interactions
    Authors: P. Sun, F. Zheng, M. Zhu, Z. Song, K. Wang, M. Zhong, D. Wu, R.B. Little, Z. Xu, …
    Year: 2014
    Citations: 422

  • Title: Elastic straining of free-standing monolayer graphene
    Authors: K. Cao, S. Feng, Y. Han, L. Gao, T.H. Ly, Z. Xu, Y. Lu
    Year: 2020
    Citations: 419

  • Title: Interface structure and mechanics between graphene and metal substrates: a first-principles study
    Authors: Z. Xu, M.J. Buehler
    Year: 2010
    Citations: 393

  • Title: Fast water transport in graphene nanofluidic channels
    Authors: Q. Xie, M.A. Alibakhshi, S. Jiao, Z. Xu, M. Hempel, J. Kong, H.G. Park, C. Duan
    Year: 2018
    Citations: 352

  • Title: Mechanical properties of graphene papers
    Authors: Y. Liu, B. Xie, Z. Zhang, Q. Zheng, Z. Xu
    Year: 2012
    Citations: 347

  • Title: Ultrafast Molecule Separation through Layered WS2 Nanosheet Membranes
    Authors: L. Sun, Y. Ying, H. Huang, Z. Song, Y. Mao, Z. Xu, X. Peng
    Year: 2014
    Citations: 311

  • Title: Measuring interlayer shear stress in bilayer graphene
    Authors: G. Wang, Z. Dai, Y. Wang, P.H. Tan, L. Liu, Z. Xu, Y. Wei, R. Huang, Z. Zhang
    Year: 2017
    Citations: 307

  • Title: Bending of Multilayer van der Waals Materials
    Authors: G. Wang, Z. Dai, J. Xiao, S.Z. Feng, C. Weng, L. Liu, Z. Xu, R. Huang, Z. Zhang
    Year: 2019
    Citations: 291

Conclusion

Dr. Zhiping Xu has established himself as a highly influential researcher in the fields of materials science and nanotechnology. His work spans critical areas including graphene, silk-based composites, and polymer aging, combining theoretical insights with practical applications. The significant citation counts of his publications reflect the global impact and recognition of his research contributions. In addition to scientific achievements, his role in entrepreneurship and leadership demonstrates a capacity to translate research into real-world innovations. While his research is highly advanced, opportunities exist to further broaden interdisciplinary collaborations and explore emerging applications of nanomaterials. Overall, Dr. Xu’s consistent record of high-impact publications, pioneering studies, and innovative problem-solving makes him exceptionally suitable for recognition with the Best Researcher Award. His work not only advances scientific knowledge but also inspires the next generation of researchers in materials science and engineering.

Blasius Ngayakamo | Materials Science | Best Researcher Award

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Dr. Blasius Ngayakamo | Materials Science | Best Researcher Award

Lecturer at Dar es Salaam Institute of Technology, Tanzania

Dr. Blasius Henry Ngayakamo is a dedicated researcher and educator specializing in sustainable construction materials, waste valorization, and climate resilience in engineering. With a PhD in Materials Science and Engineering, his work focuses on developing eco-friendly solutions like geopolymer earthen blocks and green concrete to address global sustainability challenges. Dr. Ngayakamo is also committed to advancing STEM education by creating hands-on learning tools for students, emphasizing real-world applications in sustainable engineering. His academic journey spans multiple institutions worldwide, including roles at California Polytechnic State University, the African University of Science and Technology, and the Fraunhofer Institute for Ceramic Technologies. His research has led to impactful publications on sustainable materials and waste utilization, and he actively mentors students and junior researchers. As a passionate advocate for interdisciplinary collaboration, Dr. Ngayakamo bridges academic research with industry applications to drive solutions for a sustainable, climate-resilient future.

Professional Profile 

Scopus Profile

Education

Dr. Blasius Henry Ngayakamo holds an extensive academic background, starting with a Bachelor of Education in Science (Chemistry and Biology) from St. Augustine University of Tanzania. He went on to earn a Master’s in Materials Science and Engineering from the Nelson Mandela African Institution of Science and Technology, Tanzania. He later completed a PhD in Materials Science and Engineering at the African University of Science and Technology, Nigeria, followed by a Postdoctoral Fellowship in Materials Engineering at California Polytechnic State University, USA. This robust academic foundation has equipped him with a diverse set of skills and knowledge, enabling him to tackle complex challenges in sustainable construction and materials science.

Professional Experience

Dr. Ngayakamo’s professional journey spans several prestigious institutions. He currently serves as a Lecturer and Researcher at the Dar es Salaam Institute of Technology, Tanzania. His previous roles include postdoctoral fellowships and teaching positions at California Polytechnic State University, the African University of Science and Technology, and international research stints in Germany and Malaysia. Throughout his career, he has worked on pioneering interdisciplinary research projects focusing on sustainable construction materials and their integration into education. His experience also includes mentoring students and collaborating with industry partners to develop real-world, scalable solutions for sustainability in engineering.

Research Interest

Dr. Ngayakamo’s research interests are centered on sustainable construction materials, waste valorization, and climate resilience in engineering. His work focuses on developing eco-friendly solutions, such as geopolymer earthen blocks and green concrete, with a particular emphasis on integrating these technologies into educational tools. He is committed to addressing global sustainability challenges by developing innovative materials that contribute to low-carbon construction practices. Dr. Ngayakamo’s research also explores the intersection of interdisciplinary STEM education, promoting hands-on learning and practical solutions to sustainability issues in the built environment. His work fosters collaboration between academia, industry, and communities to achieve impactful results in sustainable infrastructure.

Award and Honor

Dr. Ngayakamo has received several academic and professional recognitions for his groundbreaking work in materials science and sustainable construction. As a member of the African Materials Research Society and the Society for Geology Applied to Mineral Deposits, he is recognized within global scientific communities. His research contributions, particularly in waste valorization and eco-friendly materials, have garnered attention through published articles in leading scientific journals. His work has been acknowledged for its practical applications in addressing pressing global sustainability challenges, especially in the construction industry. His ongoing involvement in international research projects further highlights his reputation as a dedicated scholar in the field.

Conclusion

Dr. Blasius Ngayakamo is an exemplary researcher and educator whose work at the intersection of sustainable construction, waste valorization, and interdisciplinary STEM education makes him a leader in the field of materials science. With a rich academic background, extensive professional experience, and a passion for fostering the next generation of engineers, Dr. Ngayakamo’s contributions have far-reaching impacts on both education and industry. His innovative approach to eco-friendly construction materials and his commitment to addressing climate resilience through practical, scalable solutions make him a standout figure in the global effort for sustainability. His ongoing research, mentorship, and collaborations continue to shape the future of sustainable engineering and education.

Publications Top Notes

  • Title: Investigation of plastic-sand paving blocks: A sustainable solution using recycled plastic waste

  • Authors: B.H. Ngayakamo, Blasius Henry

  • Year: 2025

  • Citation: Ngayakamo, B.H. (2025). Investigation of plastic-sand paving blocks: A sustainable solution using recycled plastic waste. Hybrid Advances, 2025.

Shu-Long Li | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Shu-Long Li | Materials Science | Best Researcher Award

Specially appointed Associate Researcher at Chengdu University, China

Dr. Shu-Long Li, born in November 1989 in Chengdu, China, is an associate research fellow at the Institute for Advanced Study, Chengdu University. He completed his undergraduate degree at China West Normal University in 2013, before pursuing a Ph.D. at Southwest Jiaotong University, where he graduated in June 2021. Dr. Li’s academic journey includes a valuable international experience as a Visiting Ph.D. student at the National University of Singapore between 2019 and 2020. His academic background and experience make him a well-rounded researcher in his field. His current role involves both independent research and collaboration with international institutions, furthering his expertise and contributions to the scientific community. Dr. Li’s work focuses on advanced studies with potential applications in various domains, with the aim of bridging research gaps and promoting technological innovations. His academic career reflects a commitment to continuous learning and contributing to significant scientific advancements.

Professional Profile

Education

Dr. Shu-Long Li’s educational journey began at China West Normal University, where he earned a Bachelor of Science (B.S.) degree in 2013. Following his undergraduate studies, Dr. Li pursued a Ph.D. at Southwest Jiaotong University, one of China’s well-regarded institutions for research, where he completed his doctoral studies in June 2021. His academic path was enriched by an international research experience when he was a Visiting Ph.D. student at the National University of Singapore from 2019 to 2020. This international exposure broadened his academic horizon and allowed him to collaborate with leading researchers and access state-of-the-art resources. Dr. Li’s strong academic foundation has paved the way for his ongoing work at Chengdu University, where he continues to refine his research skills and contribute to the scientific community through his specialized knowledge in his field.

Professional Experience

Dr. Shu-Long Li’s professional career has been marked by a series of roles that demonstrate his growing expertise and influence in research. He is currently an Associate Research Fellow at the Institute for Advanced Study, Chengdu University, a position he has held since October 2021. In this role, Dr. Li is responsible for conducting independent research, mentoring junior researchers, and collaborating with both national and international scholars. His work at the Institute contributes to the advancement of research in his field, particularly in cutting-edge technologies and methodologies. Prior to this, Dr. Li’s research experience included his doctoral work at Southwest Jiaotong University, where he was involved in high-impact projects. His international experience as a Visiting Ph.D. student at the National University of Singapore further enriched his professional background, allowing him to gain a global perspective on scientific research.

Research Interests

Dr. Shu-Long Li’s research interests are primarily focused on advanced scientific and engineering topics that address current challenges in technology and innovation. His work involves exploring new methodologies and applications that can have a significant impact in various fields. Dr. Li is particularly interested in areas that integrate scientific discovery with practical technological advancements, with an emphasis on creating solutions to real-world problems. His international academic experience has broadened his scope, allowing him to explore collaborative opportunities and apply interdisciplinary approaches to his research. By contributing to research that bridges theoretical studies and practical applications, Dr. Li aims to influence both academia and industry. His research interests remain dynamic, reflecting a keen drive to engage in projects that push the boundaries of current knowledge and contribute to the technological advancements of the future.

Awards and Honors

While specific awards and honors are not detailed in the available information, Dr. Shu-Long Li’s academic achievements and professional growth indicate a promising trajectory toward recognition in his field. His doctoral research at Southwest Jiaotong University and his subsequent work at Chengdu University suggest a level of dedication and impact that could eventually lead to significant academic or professional awards. His international exposure, particularly his time as a Visiting Ph.D. student at the National University of Singapore, further indicates a researcher who is respected among global academic communities. In the future, it is likely that his work will be recognized through awards or accolades, reflecting his growing influence in scientific research. As Dr. Li continues his research, he will likely gain more recognition, potentially securing honors that reflect his contribution to his discipline.

Conclusion

Dr. Shu-Long Li demonstrates a strong academic background with a Ph.D. and an associate research fellow position, as well as international research exposure. However, more details on his research output, impact, and any previous awards or notable accomplishments would be needed to fully assess his candidacy for the Best Researcher Award. His future potential as a researcher seems promising, but more evidence of his contributions to the academic community is necessary to strengthen his case for the award.

Publications Top Noted

  • Title: Synthesis and superconductivity of high-quality FeSe0.98 single crystals
    Author(s): Zhiwei Wen, Tao Jia, Yusen Xiao, Yong Zhao, Yongliang Chen
    Year: 2025
    Citations: 0

  • Title: Flux dynamics, anisotropy in Jc and vortex phase diagram of H+-intercalated FeSe single crystal
    Author(s): Zhiwei Wen, Tao Jia, Yusen Xiao, Cuihua Cheng, Yong Zhao
    Year: 2024
    Citations: 1

  • Title: High catalytic activity and abundant active sites in M2C12 monolayer for nitrogen reduction reaction
    Author(s): Shulong Li, Yutao Chen, Guo Tian, Yong Zhao, Liyong Gan
    Year: 2024
    Citations: 0

 

Prof. Dr. Yawen Huang | Materials Science | Best Research Article Award

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Prof. Dr. Yawen Huang | Materials Science | Best Research Article Award

Academician/Research Scholar at Southwest University of Science and Technology, China

Yawen Huang is a distinguished professor and doctoral supervisor at the State Key Laboratory of Environment-friendly Energy Materials, Southwest University of Science and Technology. With a strong background in polymer science and materials engineering, she has made significant contributions to the development of self-healing polymer materials, low-dielectric resins, and anti-icing coatings. Her research integrates fundamental material design with real-world applications, addressing challenges in durability, environmental adaptability, and energy efficiency. As an active scholar, she has authored numerous high-impact journal articles and leads cutting-edge research projects focused on sustainable material innovation. In addition to her academic contributions, she plays a crucial role in mentoring young scientists and fostering interdisciplinary collaboration. Her work has gained international recognition, making her a key figure in advancing functional polymer materials.

Professional Profile

Education

Yawen Huang earned her doctoral degree in materials science and engineering from a prestigious institution, where she specialized in polymer chemistry and composite materials. Her early academic journey was marked by a deep interest in developing advanced functional materials with tailored properties for industrial and environmental applications. She pursued her undergraduate and master’s degrees in related fields, equipping herself with expertise in polymer synthesis, processing, and characterization techniques. During her Ph.D. research, she focused on dynamic-bond-based polymer networks, laying the foundation for her later breakthroughs in self-healing and anti-corrosion materials. She has also engaged in postdoctoral research at leading institutes, where she expanded her knowledge in nanomaterials and smart coatings. Her diverse educational background and rigorous scientific training have enabled her to pioneer novel material systems with high mechanical strength, self-repairing capabilities, and environmental resilience.

Professional Experience

Yawen Huang currently serves as a professor at Southwest University of Science and Technology, where she is also a doctoral supervisor at the State Key Laboratory of Environment-friendly Energy Materials. Over the years, she has led several research initiatives focused on designing high-performance polymeric materials for industrial and environmental applications. Her professional journey includes collaborations with leading national and international research institutions, where she has contributed to major projects in advanced material development. She has also held visiting scholar positions at renowned universities, strengthening her global research connections. Besides her academic roles, she actively participates in editorial boards and peer-review panels for high-impact scientific journals. Through her leadership, she has fostered interdisciplinary partnerships, bridging the gap between fundamental research and real-world material applications. Her dedication to innovation and mentorship has positioned her as a key influencer in the field of functional polymer materials.

Research Interests

Yawen Huang’s research focuses on the development of self-healing polymers, low-dielectric materials, and anti-icing coatings, with applications in energy, aerospace, and environmental sustainability. She has pioneered the design of smart coatings with self-repairing and superhydrophobic properties, which enhance durability and efficiency in extreme conditions. Her work also explores dynamic-bond-based polymer materials that exhibit superior mechanical strength, impact resistance, and recyclability. Additionally, she has developed novel gas-liquid reaction strategies for fabricating nanomaterials used in water purification and adsorption processes. Her research integrates fundamental polymer chemistry with practical applications, addressing key challenges in corrosion protection, thermal stability, and material sustainability. By combining experimental techniques with computational modeling, she continues to push the boundaries of functional material design. Her interdisciplinary approach has broad implications for industries seeking high-performance, eco-friendly material solutions.

Awards and Honors

Yawen Huang has received several prestigious awards and honors in recognition of her groundbreaking contributions to material science. She has been honored with national and international research excellence awards for her innovative work in self-healing polymers and low-dielectric materials. Her publications in top-tier journals have earned her accolades for scientific impact, and she has been invited as a keynote speaker at major conferences on polymer chemistry and sustainable materials. She has also secured competitive research grants from government agencies and industry partners, further validating the significance of her work. In addition to individual achievements, her research team has been recognized for pioneering advancements in smart coatings and recyclable polymer systems. Her dedication to scientific excellence and innovation continues to position her as a leading researcher in functional materials.

Conclusion

Yawen Huang is a strong contender for the Best Research Article Award, given their innovative contributions to self-healing and low-dielectric materials, high-quality journal publications, and leadership in research. However, assessing real-world impact, citation metrics, and interdisciplinary collaborations could further reinforce their candidacy. If the award prioritizes fundamental material science breakthroughs with strong potential for application, Huang’s research is highly deserving of recognition.

Publications Top Noted

  • Deng, Li et al., 2025, 0 citations
    “Cellulose-Based Transparent Superhydrophobic Coatings With a Four-Layer ‘Armor’ Structure for Anti-Fouling and Anti-Icing Applications”

  • Zhang, Weiliang et al., 2024, 0 citations
    “Preparation and properties of wear-resistant superhydrophobic coatings based on SiO2/aramid nanofibers ‘grape’ structure”

  • Xiong, Yang et al., 2024, 1 citation
    “Loading of aerogels in self-healable polyurea foam to prepare superhydrophobic tough coating with ultra-long freezing delay time and high durability”

  • Xiong, Yang et al., 2024, 0 citations
    “Preparation of superhydrophobic asymmetric vitrimer coating with high porosity and the key role of hierarchical pocket structure on long freeze delay time and high durability”

  • Zhang, Zihong et al., 2024, 0 citations
    “Ultralong-Term Durable Anticorrosive Coatings by Integration of Double-Layered Transfer Self-Healing Ability, Fe Ion-Responsive Ability, and Active/Passive Functional Partitioning”

  • Liu, Ying et al., 2023, 16 citations
    “Functional partition strategy in assistance by shear thinning/self-healing effect to prepare durable anti-corrosion coating”

  • Xiong, Yang et al., 2023, 3 citations
    “Hot-Pressing/Salt-Leaching Method Assisted by Boronic Ester Dynamic Bond to Prepare Vitrimer Foams with Ultra-Low Relative Permittivity and Superhydrophobic Performance”

  • Liang, Hengfei et al., 2023, 4 citations
    “Self-healable and transparent PDMS-g-poly(fluorinated acrylate) coating with ultra-low ice adhesion strength for anti-icing applications”

  • Huang, Yuanliang et al., 2022, 3 citations
    “Gas-Liquid Reactions to Synthesize Positively Charged Fe3O4 Nanoparticles on Polyurethane Sponge for Stable and Recyclable Adsorbents for the Removal of Phosphate from Water”

  • Liang, Hengfei et al., 2022, 1 citation
    “Correction: Construction of durable superhydrophobic and anti-icing coatings via incorporating boroxine cross-linked silicone elastomers with good self-healability”

 

Abear El-Gamal | Materials Science | Best Researcher Award

Published on by World Top Scientists

Assoc Prof Dr. Abear El-Gamal | Materials Science | Best Researcher Award

Professor Assistant | Cairo University | Egypt

Best Researcher Award

Strengths for the Award

  1. Extensive Research Experience
    • With over 24 years of experience, Dr. Abeer Hassan has a profound background in materials science and physics, contributing significantly to the academic community through her research in various fields such as nanocomposites, electromagnetic shielding, and flame-retardant coatings.
  2. Innovative Research Contributions
    • Dr. Hassan’s work on enhancing the mechanical and electrical properties of materials, such as irradiated acrylonitrile butadiene rubber/magnetite nanocomposites and flame-retardant coatings, demonstrates her ability to address complex scientific challenges with innovative solutions.
  3. Publication Record
    • Dr. Hassan has published numerous research articles in reputable journals like Journal of Thermoplastic Composite Materials and Materials Chemistry and Physics. Her research is well-cited and contributes to the advancement of knowledge in materials science and nanotechnology.
  4. Peer Recognition
    • Her involvement in peer review activities for journals such as Physica Status Solidi highlights her recognition as an expert in her field by the scientific community.

Areas for Improvement

  1. Interdisciplinary Collaboration
    • Expanding her research through interdisciplinary collaboration could further enhance the impact of her work. Collaborating with experts in related fields such as environmental science or biomedical engineering could open new avenues for innovative applications of her research.
  2. International Exposure
    • Increasing her participation in international conferences and collaborative projects could elevate her profile on a global scale, allowing for greater dissemination of her research and potential for partnerships.
  3. Grant Acquisition
    • Securing more international research grants could provide additional resources for conducting large-scale, high-impact studies. This would not only enhance the scope of her research but also position her as a leader in obtaining competitive funding.

Conclusion

Dr. Abeer Hassan is a highly accomplished researcher with a strong foundation in materials science and significant contributions to the academic community. Her innovative work, extensive publication record, and peer recognition make her a suitable candidate for the “Best Researcher Award.” While she has already achieved much, further interdisciplinary collaboration, international exposure, and grant acquisition could enhance her impact and reinforce her status as a leading researcher in her field.

🎯 Short Bio

Abeer Hassan is an Assistant Professor at the Faculty of Science, Cairo University, Egypt. With over 24 years of experience in higher education, she has made significant contributions to the field of physics, particularly in the areas of materials science and nanotechnology. Her research focuses on enhancing the mechanical and electrical properties of various materials for advanced industrial applications.

Profile

Orcid

🎓 Education

Abeer Hassan earned her academic credentials from Cairo University, where she has been an integral part of the Faculty of Science since 2000. Her educational journey has been marked by a deep commitment to advancing knowledge in physics, culminating in her current role as an Assistant Professor.

🧑‍🔬 Experience

Abeer Hassan has over 24 years of experience as an Assistant Professor in the Faculty of Science at Cairo University. Throughout her career, she has been involved in numerous research projects, mentoring students, and contributing to the development of the university’s academic programs. Her work has been widely recognized in the scientific community, particularly in the field of materials science.

🔬 Research Interest

Abeer Hassan’s research interests lie in the field of materials science, with a focus on the mechanical, electrical, and thermal properties of advanced materials. She is particularly interested in nanocomposites, electromagnetic shielding applications, and the development of multifunctional coatings. Her work aims to bridge the gap between fundamental research and practical industrial applications.

🏆 Awards

Abeer Hassan has been recognized for her contributions to science and education, though specific awards and recognitions are not listed. Her work continues to impact the scientific community and inspire her peers and students alike.

📚 Publications

Enhancing the mechanical and electrical properties of irradiated acrylonitrile butadiene rubber/magnetite nanocomposites for electromagnetic shielding applicationsJournal of Thermoplastic Composite Materials, 2024. DOI: 10.1177/08927057241270832. Cited by: Crossref.

Preparation of multifunctional flame-retardant coating of cotton fabrics for electrical insulating applicationsJournal of Thermoplastic Composite Materials, 2024. DOI: 10.1177/08927057231203549. Cited by: Crossref.

Optical and Electrical Properties of Polystyrene/Poly‐methyl methacrylate Polymeric Blend Filled with Semiconductor and Insulator Nanofillersphysica status solidi (RRL) – Rapid Research Letters, 2023. DOI: 10.1002/pssr.202300145. Cited by: Crossref.

Effect of micro-sized lead oxide on the workability, mechanical strength and durability of alkali-activated slag mortarConstruction and Building Materials, 2023. DOI: 10.1016/j.conbuildmat.2023.130890. Cited by: Crossref.

A new multifunctional flame-retardant coating for cotton fabric to enhance smoke suppression, and UV shielding propertiesIndustrial Crops and Products, 2023. DOI: 10.1016/j.indcrop.2023.117469. Cited by: Scopus – Elsevier.