Qabas Khalid Naji | Material Science | Best Researcher Award

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Assist. Prof. Dr. Qabas Khalid Naji | Material Science | Best Researcher Award

University of Babylon | Iraq

Assist. Prof. Dr. Qabas Khalid Naji is a distinguished academic and researcher in the field of Materials and Metallurgical Engineering, with a specialized focus on biomaterials, coatings, and advanced surface modification technologies. With her Ph.D. in Metallurgical Engineering from the University of Babylon, she has established herself as an expert in developing innovative solutions for biomedical applications and industrial engineering challenges. Her doctoral work emphasized Micro-Arc Oxidation (MAO) processes, improving corrosion resistance, mechanical properties, and structural performance of titanium-based alloys, which are highly relevant in medical implant technologies. Dr. Qabas has authored and co-authored multiple research papers in high-impact journals, such as Materials Today: Proceedings, Key Engineering Materials, and Journal of Physics: Conference Series. She has also contributed as a reviewer and evaluator for numerous international conferences, highlighting her academic recognition. Beyond research, she has played an important role in teaching and mentoring students, serving as a lecturer at both the University of Babylon and Al-Mustaqbal University College. Her academic journey reflects a balance of research excellence, teaching leadership, and professional service, positioning her as one of the promising scholars in her field with significant contributions to both science and education.

Professional Profile

Scopus | Google Scholar

Education

Assist. Prof. Dr. Qabas Khalid Naji has pursued a strong academic pathway rooted in Materials and Metallurgical Engineering. She began her higher education at the University of Babylon, where she obtained her Bachelor of Science (B.Sc.) in Material Engineering / Metallurgical Engineering. During this phase, she developed a foundational understanding of material structures, mechanical properties, and engineering applications. She further advanced her expertise by completing a Master of Science (M.Sc.) in Metallurgical Engineering, focusing on metal processing, surface engineering, and quality enhancement techniques. This period allowed her to engage in advanced laboratory practices and develop independent research skills. Her academic journey culminated with a Doctor of Philosophy (Ph.D.) in Metallurgical Engineering, where her dissertation was centered on bioceramic coatings and the application of Micro-Arc Oxidation techniques to improve the biomedical performance of alloys. The Ph.D. phase represented a crucial step in her academic development, equipping her with both theoretical knowledge and practical expertise to carry out innovative, application-oriented research. Her educational background demonstrates a consistent dedication to advancing materials science, and it has laid the foundation for her career as a researcher, lecturer, and scientific contributor in both academic and professional domains.

Professional Experience

Assist. Prof. Dr. Qabas Khalid Naji has built a diverse academic and teaching career with roles that combine research, teaching, and administrative responsibilities. She began her academic career as an external lecturer at the University of Babylon, teaching courses in Laboratory Metals Machining, Industrial Engineering, and Quality Control, where she applied her strong technical knowledge to guide students in practical and theoretical aspects of materials science. She later served as a lecturer at Al-Mustaqbal University College in the Department of Biomedical Engineering, where she also undertook additional responsibilities as a quality officer, ensuring academic and institutional standards. she was officially appointed as a faculty member at the University of Babylon, College of Materials Engineering, where she continues to serve as an Assistant Professor. Alongside teaching, she has played an important role in curriculum design, quality management, and student mentorship. Dr. Qabas has also acted as an evaluator for international research conferences, which highlights her recognition in the global academic community. Her professional journey reflects a strong commitment to education, scientific innovation, and academic leadership, ensuring her continuous growth as a researcher and educator in metallurgical and materials engineering.

Research Interests

Assist. Prof. Dr. Qabas Khalid Naji’s research interests lie primarily in biomaterials, coatings, and advanced metallurgical engineering applications. Her doctoral research focused on the surface modification of titanium alloys through Micro-Arc Oxidation (MAO), which significantly enhances mechanical strength, corrosion resistance, and biocompatibility, making it ideal for biomedical implants. She has also explored layered bioceramic coatings, including hydroxyapatite and titanium dioxide composites, which contribute to advancements in medical device technology. Beyond biomaterials, her research extends into nanostructured materials, corrosion science, heat treatment effects, and aluminum alloy processing, showcasing her ability to bridge both theoretical materials science and practical engineering applications. Her recent publications have investigated the impact of melting and casting parameters on aluminum alloys, reflecting her wide scope of expertise. Dr. Qabas is particularly interested in how surface engineering techniques can improve material performance in biomedical, aerospace, and industrial sectors. She continues to expand her research through collaborative projects, interdisciplinary studies, and applied experimental work, ensuring her contributions remain at the forefront of materials innovation, biomedical engineering, and sustainable industrial technologies. Her research agenda demonstrates a clear vision of bridging scientific discovery with real-world technological applications.

Research Skills

Over the course of her academic and professional journey, Assist. Prof. Dr. Qabas Khalid Naji has developed a comprehensive set of research skills that span experimental, analytical, and academic domains. Her expertise lies in surface modification techniques such as Micro-Arc Oxidation (MAO), which she has extensively applied to titanium-based alloys for biomedical applications. She is skilled in materials characterization methods, including structural, mechanical, and corrosion property testing of advanced alloys and bioceramic coatings. Additionally, she has experience in heat treatment processes, alloy casting, and nanomaterial preparation, making her well-versed in both experimental and industrial metallurgical practices. On the academic side, she is proficient in scientific writing, peer reviewing, and presenting research at international conferences. She has participated in and completed multiple professional training courses in teaching methodology, computer applications, and engineering innovations, further enhancing her technical and academic competencies. Furthermore, Dr. Qabas has served as an evaluator and reviewer for various scientific conferences and research platforms, reflecting her recognition as an expert in her field. Her ability to combine theoretical analysis with experimental practice highlights her strong profile as a well-rounded researcher, capable of contributing both academically and industrially to materials science and engineering.

Awards and Honors

Throughout her career, Assist. Prof. Dr. Qabas Khalid Naji has received recognition for her academic and research contributions in the field of Materials and Metallurgical Engineering. She has been actively involved in evaluating and reviewing international research and scientific conferences, which reflects her respected standing within the global research community. Her publications in reputed, peer-reviewed journals and conference proceedings indexed in Scopus and Web of Science further highlight her scholarly impact. Among her notable works are contributions to journals such as Materials Today: Proceedings, Key Engineering Materials, 3C Tecnología, and Journal of Physics: Conference Series, all of which underline her role as a productive and impactful researcher. She has also been invited to participate in scientific workshops, training courses, and professional development programs, earning certifications that enhance both her teaching and research expertise. While her career is still progressing, her consistent contributions in biomaterials, alloy modifications, and applied surface engineering techniques stand as significant honors to her academic profile. Her growing citation record and recognition as a reviewer reflect her standing as an emerging leader in her discipline, with strong potential to achieve further international awards and honors in the near future.

Publication Top Notes

  • Investigations of structure and properties of layered bioceramic HA/TiO₂ and ZrO₂/TiO₂ coatings on Ti-6Al-7Nb alloy by micro-arc oxidation — 2022 — 20 citations

  • The surface modification of pure titanium by micro-arc oxidation (MAO) process — 2021 — 10 citations

  • Effect of tool shape geometry and rotation speed in friction stir welding of 2024-T3 — 2016 — 5 citations

  • Plasma Electrolytic Oxidation of Nanocomposite Coatings on Ti-6Al-7Nb alloy for Biomedical Applications — 2024 — 2 citations

  • Study of the Effect of Melting and Casting Temperature and Heat Treatment on the Mechanical Properties of Aluminum 7075 — 2024

  • Micro-arc oxidation enhances mechanical properties and corrosion resistance of Ti-6Al-7Nb alloy — 2023

  • Deposition of Layered Bioceramic HA/TiO₂ Coatings on Ti-6Al-7Nb Alloys Using Micro-Arc Oxidation — 2022

Conclusion

Assist. Prof. Dr. Qabas Khalid Naji is an exemplary academic and researcher who has made meaningful contributions to metallurgical and materials engineering, particularly in the area of biomaterials and advanced coating technologies. Her educational journey from B.Sc. to Ph.D. at the University of Babylon reflects her dedication to academic excellence, while her professional experiences as a lecturer, quality officer, and assistant professor demonstrate her commitment to teaching, mentoring, and research leadership. With impactful publications in international journals and presentations in scientific conferences, she has established her research visibility at both national and international levels. Her skills in surface engineering, corrosion science, and biomedical applications highlight her capacity to address pressing challenges in both industrial and medical fields. Beyond research, her involvement in conference evaluation, training courses, and academic quality management underscores her service to the scientific community. Looking ahead, Dr. Qabas is well-positioned to expand her global collaborations, publish in higher-impact journals, and take on greater leadership roles in international research networks. Her achievements and potential make her highly deserving of recognition, such as the Best Researcher Award, reflecting her growing impact in advancing science, engineering, and education.

Hanaa Abd El-Hamid | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Hanaa Abd El-Hamid | Materials Science | Best Researcher Award

Associate Professor from National Research Centre, Egypt

Hanaa Kamel Abd El-Hamid Essway is an accomplished Egyptian researcher specializing in ceramics, refractory, and building materials with extensive expertise in bioactive and sustainable materials. she currently serves as an Assistant Professor at the National Research Centre. With over 20 years of progressive experience, Dr. Essway has built a strong research portfolio focusing on the development of innovative materials for biomedical, dental, and structural applications. Her research emphasizes the use of cost-effective and eco-friendly materials, aligning her work with both scientific advancement and environmental sustainability. She has published numerous articles in highly regarded international journals such as Ceramics International, Scientific Reports, and Heliyon, covering critical areas like bio-cements, corrosion-resistant coatings, and dental restorative materials. In addition to her research, she is actively involved in training and mentoring university students and has participated in several national and international conferences. Dr. Essway possesses a strong blend of practical laboratory expertise and theoretical knowledge, and she continuously seeks to contribute to the advancement of material science. Her career reflects her dedication to scientific excellence, continuous learning, and impactful research that addresses real-world challenges.

Professional Profile

Education

Dr. Hanaa Kamel Abd El-Hamid Essway has pursued a solid academic path that firmly established her expertise in chemistry and materials science. She earned her Ph.D. in Chemistry from Ain Shams University, Egypt, in 2013. Her doctoral research, titled “Utilization of Egyptian Oil Shales in Manufacture of High-Belite Cement and Activated Pozzolanic Ash,” focused on sustainable and cost-efficient materials for construction, demonstrating her early commitment to resource-efficient technologies. Before her doctoral studies, she completed her Master’s degree in Chemistry in 2006 from Menufiya University, where she conducted in-depth studies on the use of Egyptian oil shales in cement production. Her Master’s research laid the groundwork for her doctoral investigations and subsequent career focus on eco-friendly building materials. Dr. Essway began her academic journey by earning a Bachelor’s degree in Chemistry from Menufiya University in 1999 with high distinction, graduating with an overall rating of “Very Good.” Her continuous educational progression from undergraduate studies to advanced research degrees reflects her sustained academic dedication and expertise in her field. These educational achievements have provided her with a comprehensive understanding of both theoretical chemistry and its practical applications in material development.

Professional Experience

Dr. Hanaa Kamel Abd El-Hamid Essway has demonstrated consistent career growth through her long-standing association with the National Research Centre in Egypt. She currently holds the position of Assistant Professor in the Ceramics, Refractory, and Building Materials Department, a role she has occupied since February 2023. Her academic journey within the Centre began in 2001 as a Research Assistant, and she gradually progressed through the ranks as an Assistant Researcher, Researcher, and finally Assistant Professor. Between 2006 and 2013, she served as an Assistant Researcher, where she honed her skills in developing novel materials for biomedical and structural use. Following this, she worked as a full-time Researcher until 2023, during which she made significant research contributions, particularly in the area of bio-cement and corrosion-resistant coatings. Over her career, Dr. Essway has participated in several specialized training courses, student mentorship programs, and international scientific conferences. Her professional experience not only showcases her research capabilities but also highlights her ability to apply her scientific knowledge in real-world materials development. This long-term commitment to research and education has positioned her as a highly respected expert in her field.

Research Interest

Dr. Hanaa Kamel Abd El-Hamid Essway’s research interests are deeply rooted in the development of sustainable, cost-effective, and bioactive materials for use in various industrial and biomedical applications. She is particularly focused on ceramics, bio-cement, corrosion-resistant coatings, and dental restorative materials. One of her primary areas of investigation is the utilization of locally available, low-cost materials such as Egyptian oil shales and soda-lime-silica glass in cement and bioactive composites, aiming to reduce manufacturing costs while enhancing material performance. Her work on nano-structured coatings for corrosion protection and biocompatible composites has significant potential for medical implants and dental applications. Additionally, Dr. Essway is interested in the hydration behavior and remineralization potential of modified cements, exploring how novel composites can improve the strength and longevity of dental restorations. Her cross-disciplinary research approach integrates chemistry, materials science, and biomedical engineering, contributing to both environmental sustainability and human health. Dr. Essway’s research is geared toward solving real-world challenges by improving material properties such as biocompatibility, antibacterial resistance, and mechanical durability, making her work highly relevant for industries such as healthcare, construction, and biomaterials development.

Research Skills

Dr. Hanaa Kamel Abd El-Hamid Essway possesses a diverse and advanced set of research skills that reflect her hands-on expertise in experimental design, material synthesis, and analytical characterization. She is highly skilled in developing and modifying bioactive cements, corrosion-resistant coatings, and nano-structured materials, applying polymeric methods and microwave combustion techniques for precise material fabrication. Dr. Essway’s extensive experience includes characterizing materials using advanced techniques to study microstructures, hydration behaviors, and bioactivity. She has effectively contributed to the synthesis of tricalcium silicate bio-cements, nano-alumina coatings, and zinc oxide-based composites with antibacterial and biocompatible properties. Additionally, she is proficient in evaluating the mechanical properties and corrosion resistance of coating layers, which is essential for biomedical applications. Dr. Essway is adept at using statistical tools and research methodologies for data interpretation and scientific reporting. She also has strong computer skills, particularly in Microsoft Office applications, which she uses for scientific writing and data management. Her ability to collaborate with multidisciplinary teams, conduct literature reviews, and supervise laboratory experiments further strengthens her research portfolio. Her continuous participation in training workshops and scientific conferences has allowed her to stay updated with modern research methodologies and industry practices.

Awards and Honors

While specific award titles were not listed, Dr. Hanaa Kamel Abd El-Hamid Essway’s career achievements demonstrate significant recognition within the scientific community. Her long-standing role at the National Research Centre and her progression to Assistant Professor underscore the institutional trust and recognition of her capabilities and contributions. Throughout her career, she has been actively involved in major research projects, student mentorship, and national-level training initiatives, which reflect her respected standing as both a researcher and educator. Dr. Essway has participated in several high-profile international and national conferences, where she has presented her work alongside leading experts in material science and biomaterials. Her published articles in top-tier journals such as Ceramics International, Scientific Reports, and Heliyon are further testament to the scientific community’s acknowledgment of the value and relevance of her research. Her engagement in skill development programs and training workshops, including scientific writing and occupational safety, shows her commitment to continuous improvement. The cumulative impact of her scientific contributions, teaching, and professional development indicate that she is a well-regarded figure in her field, deserving of recognition through honors such as the Best Researcher Award.

Conclusion

In conclusion, Dr. Hanaa Kamel Abd El-Hamid Essway stands out as a dedicated and accomplished researcher whose work significantly advances the fields of ceramics, bio-cement, and sustainable building materials. Her research is characterized by innovation, interdisciplinary approaches, and practical solutions that address real-world challenges in biomedical and construction applications. With more than 20 years of progressive experience, she has contributed extensively to the scientific community through impactful publications, participation in conferences, and mentorship of university students. Dr. Essway’s focus on using cost-effective and locally sourced materials aligns her work with global sustainability goals while simultaneously pushing the frontiers of material performance and safety. Her research skills, including advanced synthesis techniques, material characterization, and data analysis, have consistently yielded valuable findings that are well-recognized by international journals. Although her work would benefit from greater international collaboration and leadership roles, her proven research productivity and technical expertise make her a strong candidate for prestigious research awards. Dr. Essway’s career exemplifies the qualities of a Best Researcher Award recipient: dedication, innovation, academic excellence, and a tangible contribution to society

Publications Top Notes

1. Alkali Activation of Blended Cements Containing Oil Shale Ash

  • Authors: M.M. Radwan, L.M. Farag, S.A. Abo-El-Enein, H.K. Abd El-Hamid

  • Journal: Construction and Building Materials 40, 367-377

  • Year: 2013

  • Citations: 29

2. Preparation and Characterization of Nano-Tetracalcium Phosphate Coating on Titanium Substrate

  • Authors: M.M.R. M. Fathi, H.K. Abd El-Hamid

  • Journal: International Journal of Electrochemical Science 11, 3164-3178

  • Year: 2016

  • Citations: 17

3. Influence of Saline Solution on Hydration Behavior of β-Dicalcium Silicate in Comparison with Biphasic Calcium Phosphate/Hydroxyapatite Bio-Ceramics

  • Authors: M.M. Radwan, H.K. Abd El-Hamid, A.F. Mohamed

  • Journal: Materials Science and Engineering: C 57, 355-362

  • Year: 2015

  • Citations: 17

4. Physico-Mechanical Characteristics of Tri-Calcium Silicate Pastes as Dentin Substitute and Interface Analysis in Class II Cavities: Effect of CaCl₂ and SBF Solutions

  • Authors: M.M. Radwan, S.M. Nagi, H.K. Abd El-Hamid

  • Journal: Heliyon 5 (6)

  • Year: 2019

  • Citations: 16

5. Influence of Nano-Silica Additions on Hydration Characteristics and Cytotoxicity of Calcium Aluminate as Biomaterial

  • Authors: H.K. Abd El-Hamid, M.M. Radwan

  • Journal: Heliyon 5 (7)

  • Year: 2019

  • Citations: 13

6. Synthesis, Properties and Hydration Characteristics of Novel Nano-Size Mineral Trioxide and Tetracalcium Phosphate for Dental Applications

  • Authors: M.M. Radwan, H.K. Abd El-Hamid, S.M. Nagi

  • Journal: Oriental Journal of Chemistry 32 (5), 2459

  • Year: 2016

  • Citations: 12

7. Characterization, Bioactivity Investigation and Cytotoxicity of Borosilicate Glass/Dicalcium Silicate Composites

  • Authors: R.L.E., H.K. Abd El-Hamid, S.M. Abo-Naf

  • Journal: Journal of Non-Crystalline Solids 512, 25-32

  • Year: 2019

  • Citations: 11

8. Evaluation of Bioactivity, Biocompatibility, and Antibacterial Properties of Tricalcium Silicate Bone Cement Modified with Wollastonite/Fluorapatite Glass and Glass-Ceramic

  • Authors: H.K. Abd El-Hamid, A.M. Fayad, R.L. Elwan

  • Journal: Ceramics International 50 (14), 25322-25332

  • Year: 2024

  • Citations: 10

9. Incorporation of Strontium Borosilicate Bioactive Glass in Calcium Aluminate Biocement: Physicomechanical, Bioactivity and Antimicrobial Properties

  • Authors: H.K. Abd El-Hamid, A.A. El-Kheshen, A.M. Abdou, R.L. Elwan

  • Journal: Journal of the Mechanical Behavior of Biomedical Materials 144, 105976

  • Year: 2023

  • Citations: 8

10. Synthesis, Characterization and Antimicrobial Activity of Nano-Crystalline Tricalcium Silicate Bio-Cement

  • Authors: H.K. Abd El-Hamid, H.H. Abo-Almaged, M.M. Radwan

  • Journal: Journal of Applied Pharmaceutical Science 7 (10), 001-008

  • Year: 2017

  • Citations: 8

 

 

Aimé Peláiz Barranco | Materials Science | Best Researcher Award

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Prof. Dr. Aimé Peláiz Barranco | Materials Science | Best Researcher Award

Faculty of Physics, University of Havana, Cuba

Aimé Peláiz Barranco is a distinguished Cuban physicist born on June 25, 1972, in La Habana, Cuba. She currently serves as the Dean and Full Professor at the Faculty of Physics, University of Havana, where she also leads the Ferroic Materials Group. With a prolific academic and research career, she is widely recognized for her contributions to ferroelectric, piezoelectric, antiferroelectric, and multiferroic materials. Dr. Peláiz Barranco has played crucial roles in academic leadership, including serving as Deputy Dean and Secretary of the Scientific Council. Internationally active, she has coordinated the Latin-American Network of Ferroelectric Materials and held invited professorships in prestigious institutions across Mexico, Brazil, Spain, France, Portugal, and China. A full member of the Academy of Sciences of Cuba, she has made significant contributions to teaching, research supervision, and academic development. With over 140 international publications, multiple book chapters, and extensive participation in scientific conferences, she has profoundly impacted the field of materials science. Her outstanding research has earned her several international and national awards, including the TWAS-ROLAC Award, the Sofia Kovalieskaya Award, and the Best Researcher recognition from the University of Havana. Her multilingual proficiency further amplifies her global academic collaborations.

Professional Profile

Education

Aimé Peláiz Barranco pursued all her higher education degrees at the University of Havana, Cuba. She earned her B.Sc. in Physics in 1995, followed by a Master’s degree in Physics Sciences in 1996. She later obtained her Doctorate in Physics Sciences in 2001, cementing her academic foundation in the field of material sciences. Her education has been deeply rooted in the Cuban academic system, particularly at the Faculty of Physics, University of Havana, where she has remained an integral part of the academic community both as a student and later as a faculty leader. Her advanced training provided the essential theoretical and practical framework for her subsequent pioneering research in ferroelectric, piezoelectric, antiferroelectric, and multiferroic materials. Throughout her educational journey, she demonstrated a strong commitment to physics education and material sciences, which laid the groundwork for her international collaborations and leadership roles. Her comprehensive education has not only equipped her with deep expertise in material characterization but also fostered her ability to lead research groups, mentor students, and contribute to scientific advancements globally.

Professional Experience

Aimé Peláiz Barranco has accumulated an extensive professional history at the University of Havana since 1995. She began as a teaching trainee and steadily advanced to become an instructor, assistant professor, auxiliary professor, and eventually a full professor in 2014. Since 2019, she has served as the Dean of the Faculty of Physics, where she also leads the Ferroic Materials Group. Her teaching portfolio includes more than 70 undergraduate and postgraduate courses, with significant involvement in thesis evaluations at the licentiate, master’s, and doctoral levels. Dr. Peláiz Barranco has also held various academic positions such as Deputy Dean, Secretary of the Scientific Council, and Member of the National Physics Commission. She actively participates in scientific organization, having served on committees for over 20 national and international conferences. Internationally, she has been invited as a professor to universities in Mexico, Brazil, Spain, France, Portugal, and China, enhancing global academic exchanges. Her coordination of the Latin-American Network of Ferroelectric Materials between 2000 and 2019 exemplifies her leadership in fostering regional research collaboration. Her broad professional journey showcases her dedication to education, research, and scientific advancement.

Research Interests

Dr. Peláiz Barranco’s research primarily focuses on the preparation and characterization of ferroelectric, piezoelectric, antiferroelectric, and multiferroic materials in the form of ceramics, thin films, and composites. She specializes in the study of phase transitions, relaxors, dielectric relaxation, electrical conductivity, and impedance spectroscopy. Her research extends to bioimpedance, pyroelectricity, piezoelectricity, multiferroics, energy storage, and the electrocaloric effect. These areas contribute significantly to the advancement of modern material science, with applications in sensors, actuators, energy systems, and smart materials. She has led numerous national and international research projects, including three grants awarded by the Third World Academy of Science. Her deep exploration into ferroic materials has resulted in over 140 publications in international journals, four book chapters, and more than 200 presentations at scientific meetings. Dr. Peláiz Barranco’s research activities are globally recognized, positioning her as a leading expert in the field. Through her leadership in the Ferroic Materials Group and the Latin-American Network of Ferroelectric Materials, she has created substantial regional and international research synergies.

Research Skills

Aimé Peláiz Barranco possesses exceptional research skills in experimental design, material synthesis, and advanced characterization techniques. Her expertise spans ceramics, thin films, and composite materials, particularly in the domains of ferroelectric, piezoelectric, antiferroelectric, and multiferroic substances. She is adept at using impedance spectroscopy, dielectric relaxation analysis, and pyroelectric and piezoelectric measurements to explore the functional properties of advanced materials. Additionally, she is skilled in bioimpedance analysis and electrocaloric effect evaluation, essential for emerging applications in biophysics and energy storage. Dr. Peláiz Barranco’s ability to lead large, multi-institutional research projects, both nationally and internationally, underscores her project management and scientific coordination capabilities. Her involvement as an editor and contributor to scientific books further highlights her ability to synthesize complex information and contribute to scientific literature. Furthermore, her supervisory experience, mentoring over 30 undergraduate, master’s, and doctoral theses, demonstrates her leadership and instructional strengths in guiding research teams and developing new scientific talent. Her fluency in Spanish, English, and Portuguese enhances her global research communication and collaboration skills.

Awards and Honors

Aimé Peláiz Barranco has received numerous prestigious awards and recognitions at both national and international levels. Among her international accolades, she won the First Prize at the First Iberoamerican Concourse of Laboratory Classes in Materials Science (1999) and the TWAS-ROLAC Award for Young Scientists in Physics (2011). She has been honored with the Young Scientist Award by CAS-TWAS (2012) and the TWOWS Award for Young Women Scientists (2010), signifying her influence across the Latin America and Caribbean region. Nationally, she has been repeatedly awarded by the Cuban Academy of Sciences, with multiple recognitions spanning from 1999 to 2023. The University of Havana has acknowledged her as Best Researcher in several years, alongside departmental and faculty awards for scientific excellence and educational innovation. She also received the distinguished Carlos J. Finlay Medal for her significant scientific contributions. These honors highlight her sustained commitment to research, education, and academic leadership. Her continuous recognition within Cuba and abroad underscores her remarkable impact on materials science and the broader scientific community.

Conclusion

Aimé Peláiz Barranco is an accomplished physicist whose career exemplifies excellence in teaching, research, and academic leadership. Her extensive expertise in ferroic materials has contributed significantly to the advancement of materials science in Cuba and internationally. Through her roles as Dean, research group leader, and international project coordinator, she has demonstrated exceptional leadership and organizational skills. Her research is widely published, and she has been recognized with numerous prestigious awards for her scientific achievements and educational contributions. Dr. Peláiz Barranco’s commitment to fostering regional and international collaborations, along with her dedication to mentoring the next generation of scientists, highlights her as a key figure in the scientific community. Fluent in multiple languages and having held various visiting professorships, she continues to build global partnerships that enrich both her work and the institutions she serves. Her professional journey reflects a harmonious balance of research excellence, impactful teaching, and significant service to the academic and scientific ecosystem, positioning her as a highly deserving candidate for the Best Researcher Award.

Publications Top Notes

1. Phase transitions in ferrimagnetic and ferroelectric ceramics by ac measurements

  • Authors: A. Pelaiz-Barranco, M.P. Gutierrez-Amador, A. Huanosta, R. Valenzuela

  • Year: 1998

  • Citations: 163

2. Ionized oxygen vacancy-related electrical conductivity in (Pb₁₋ₓLaₓ)(Zr₀.₉₀Ti₀.₁₀)₁₋ₓ/₄O₃ ceramics

  • Authors: A. Peláiz-Barranco, J.D.S. Guerra, R. Lopez-Noda, E.B. Araujo

  • Year: 2008

  • Citations: 141

3. Ferroelectric ceramic materials of the Aurivillius family

  • Authors: A. Peláiz-Barranco, Y. González-Abreu

  • Year: 2013

  • Citations: 69

4. Dielectric relaxation related to single-ionized oxygen vacancies in (Pb₁₋ₓLaₓ)(Zr₀.₉₀Ti₀.₁₀)₁₋ₓ/₄O₃ ceramics

  • Authors: A. Peláiz-Barranco, J.D.S. Guerra

  • Year: 2010

  • Citations: 65

5. Atomic‐scale imaging and quantification of electrical polarisation in incommensurate antiferroelectric lanthanum‐doped lead zirconate titanate

  • Authors: I. MacLaren, R. Villaurrutia, B. Schaffer, L. Houben, A. Peláiz‐Barranco

  • Year: 2012

  • Citations: 63

6. Raman spectroscopy study of the La‐modified (Bi₀.₅Na₀.₅)₀.₉₂Ba₀.₀₈TiO₃ lead‐free ceramic system

  • Authors: Y. Mendez‐González, A. Peláiz‐Barranco, A.L. Curcio, A.D. Rodrigues, et al.

  • Year: 2019

  • Citations: 57

7. AC behaviour and conductive mechanisms of 2.5 mol% La₂O₃ doped PbZr₀.₅₃Ti₀.₄₇O₃ ferroelectric ceramics

  • Authors: A.P. Barranco, F.C. Pinar, O.P. Martinez, J.D.L.S. Guerra, I.G. Carmenate

  • Year: 1999

  • Citations: 57

8. Effects of MnO₂ additive on the properties of PbZrO₃–PbTiO₃–PbCu₁/₄Nb₃/₄O₃ ferroelectric ceramic system

  • Authors: A.P. Barranco, F.C. Piñar, O.P.M.P. Martínez, E.T. García

  • Year: 2001

  • Citations: 50

9. Thermal and structural characterization of the ZrO₂₋ₓ(OH)₂ₓ to ZrO₂ transition

  • Authors: E. Torres-García, A. Peláiz-Barranco, C. Vázquez-Ramos, G.A. Fuentes

  • Year: 2001

  • Citations: 39

10. Piezo-, pyro-, ferro-, and dielectric properties of ceramic/polymer composites obtained from two modifications of lead titanate

  • Authors: A. Pelaiz-Barranco, P. Marin-Franch

  • Year: 2005

  • Citations: 38

Likun Qian | Materials Science | Best Researcher Award

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Mr. Likun Qian | Materials Science | Best Researcher Award

School of Future Technology, China University of Geosciences (Wuhan), China

Qian Likun is an emerging researcher in the field of automation and control systems, currently pursuing his undergraduate degree at China University of Geosciences (Wuhan). With a solid foundation in electronic technologies, embedded systems, and automation instrumentation, Qian has displayed strong technical proficiency and innovative thinking across various academic and practical projects. He has independently designed and developed motion controllers, control platforms, and monitoring systems, showcasing his ability to integrate software and hardware seamlessly. His projects range from motion trajectory control to subsurface conductor detection and RGBD salient object detection using convolutional neural networks. In addition to his technical skills, Qian has demonstrated outstanding leadership capabilities by serving as the class monitor and contributing to his college’s new media promotion initiatives. He has actively led his classmates to achieve multiple awards at the college level, earning personal recognition as an excellent Communist Youth League cadre. His work ethic, problem-solving ability, and teamwork have set him apart as a student leader and aspiring researcher. With his growing expertise in control systems, programming, and intelligent instrumentation, Qian Likun is positioning himself as a promising researcher with the potential to make significant contributions to the field of automation and intelligent systems in the near future.

Professional Profile

Education

Qian Likun is currently enrolled at China University of Geosciences (Wuhan), where he has been studying Automation since September 2018. His undergraduate education has provided him with comprehensive knowledge of automation systems, control theory, embedded technologies, and sensor applications. Throughout his studies, he has maintained a GPA of 3.01 and successfully completed a diverse range of technical courses such as analog electronic technology, digital logic circuit design, digital signal processing, system analysis, embedded programming, and object-oriented software development. These courses have helped him build a solid theoretical foundation and practical skill set. Qian’s education has also included specialized training in big data processing technologies for manufacturing and advanced system control strategies. His participation in several project-based learning modules has further enhanced his engineering abilities and problem-solving skills. His academic journey reflects not only his dedication to learning but also his ability to apply knowledge effectively to real-world scenarios. Qian has also achieved English proficiency certifications, having passed CET-4 and CET-6, and earned a Computer Level 2 certification in C++, which complements his automation expertise with solid programming capabilities. His educational background has fully equipped him to contribute meaningfully to complex research in automation and intelligent control systems.

Professional Experience

Although Qian Likun is in the early stages of his professional journey, he has accumulated substantial project-based experience that closely mirrors industry applications. He has led and contributed to multiple innovative projects during his time at China University of Geosciences. Notably, Qian successfully designed and implemented a cascade control system for a water tank and pipeline pressure monitoring, using PID control and Ethernet communication to achieve multi-machine interaction with an impressive 85% control precision. He independently built an integrated motion control experimental platform capable of simple three-dimensional relief processing and developed a modular CNC control interface. His hands-on experience also includes controlling servo motors via 51 microcontrollers, designing circuits for microvoltage signal acquisition, and applying LABVIEW software for upper computer visualization. Additionally, he utilized C++ and QT to create a multifunctional human-machine interaction calculator capable of performing both basic arithmetic and complex trigonometric operations. His graduation project focuses on RGBD salient object detection using convolutional neural networks and bifurcation backbone strategies. Qian’s practical experience demonstrates his ability to handle multidisciplinary engineering tasks, from hardware design to embedded system development and intelligent control applications, making him a well-rounded and capable early-career researcher.

Research Interest

Qian Likun’s research interests are centered on automation systems, intelligent instrumentation, embedded control, and intelligent perception technologies. He is particularly fascinated by the integration of sensor technologies with embedded systems to achieve precise control in real-time industrial environments. His work has also ventured into the field of intelligent detection, including subsurface conductor identification and salient object detection using RGBD imaging and convolutional neural networks. Qian is deeply interested in the development of intelligent monitoring systems that leverage human-machine interfaces (HMI) and multi-device communication through Ethernet networks. His passion lies in designing practical control systems that are both accurate and efficient, particularly in complex industrial processes. Furthermore, his recent exploration of deep learning methodologies, especially in salient object detection using bottom-up feature extraction and bifurcation backbone strategies, reflects his growing interest in artificial intelligence and machine vision applications. He is motivated to pursue research that blends traditional control theories with modern computational intelligence techniques to solve real-world challenges. Qian aspires to further investigate advanced control algorithms, embedded smart devices, and data-driven decision-making systems in future academic or industry research, aiming to contribute to the advancement of intelligent automation and control engineering.

Research Skills

Qian Likun possesses a diverse and practical set of research skills that span programming, circuit design, motion control, system modeling, and embedded development. He is proficient in programming languages such as C++ and MATLAB, which he has used to design embedded software, motion control systems, and data visualization interfaces. His expertise in control systems includes practical application of PID control algorithms, system modeling, and real-time control implementations. Qian has hands-on skills in building experimental platforms for motion processing, servo motor control using 51 microcontrollers, and data acquisition through differential amplification circuits. He has also demonstrated the ability to develop multi-functional human-machine interaction interfaces using QT and C++ for embedded applications. His hardware knowledge extends to sensor integration, analog and digital circuit design, and microcontroller programming. Additionally, Qian is familiar with machine learning techniques, particularly convolutional neural networks, which he applied in his graduation project for salient object detection. His skill set is further strengthened by his capability to design networked systems that enable multi-device communication using Ethernet protocols. Qian’s combination of software development, hardware control, signal processing, and intelligent algorithm application makes him a versatile researcher capable of addressing complex automation challenges.

Awards and Honors

Throughout his academic journey, Qian Likun has received multiple recognitions for both his leadership and academic contributions. He has served as the class monitor at China University of Geosciences (Wuhan), successfully leading his class to receive the “Excellent Class” award at the college level on several occasions. His dedication and organizational skills were further acknowledged when he was honored with the title of “Outstanding Communist Youth League Cadre” at the university level. Qian also played an active role in the university’s New Media Promotion Department, where he contributed to the management and content creation for the Automation College’s official WeChat platform. These leadership roles have allowed him to develop strong communication, teamwork, and project management skills in parallel with his technical education. His certification achievements include passing the Computer Level 2 examination in C++ and successfully completing both the College English Test (CET-4 and CET-6), demonstrating his competency in programming and his readiness for international collaboration. These awards and recognitions highlight his well-rounded profile, balancing academic performance, research activities, and social engagement, which together showcase his suitability as a dedicated and promising young researcher.

Conclusion

Qian Likun is a highly motivated, technically skilled, and leadership-oriented young researcher with a growing background in automation and intelligent control systems. His solid foundation in embedded technologies, motion control, signal acquisition, and human-machine interface design, combined with his demonstrated ability to lead project teams and manage complex system integrations, positions him as a promising talent in the engineering field. While he is still at the beginning of his research journey, his proactive engagement in hands-on projects and his exploration of cutting-edge technologies like convolutional neural networks reflect his potential for impactful future research contributions. Qian has demonstrated excellent leadership skills, receiving recognition for both academic performance and community engagement. However, to elevate his research profile to the next level, he would benefit from increasing his involvement in peer-reviewed research publications, enhancing his academic output, and expanding his international collaborations. With continued dedication, academic refinement, and professional development, Qian Likun has the potential to grow into a highly capable and innovative researcher who can contribute significantly to the advancement of automation, intelligent systems, and interdisciplinary engineering solutions.

Publications Top Notes

  1. Title: Design of audio to image cross-modal learning and generation based on single-layer CoPt spin-orbit torque devices
    Authors: Likun Qian, Liu Yang, Chao Zuo, Ying Tao, Wendi Li, Fang Jin, Huihui Li, Kaifeng Dong
    Year: 2025
    Journal: Journal of Magnetism and Magnetic Materials

  2. Title: Design of spike-timing-dependent plasticity synapses based on CoPt-SOT device and its application in all-spin spiking neural network
    Authors: Liu Yang, Shuguang Zhang, Likun Qian, Ying Tao, Fang Jin, Huihui Li, Zhe Guo, Rujun Tang, Kaifeng Dong
    Year: 2025
    Journal: Applied Physics Letters

Saeed Reza Allahkaram | Materials Science | Best Researcher Award

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Prof. Saeed Reza Allahkaram | Materials Science | Best Researcher Award

Professor from College of Engineering, University of Tehran, Iran

Professor Saeed Reza Allahkaram is a highly accomplished academic and researcher specializing in corrosion science and engineering. Currently serving as a Professor at the School of Metallurgy and Materials Engineering, University of Tehran, he has over 25 years of expertise in corrosion protection, materials characterization, and surface engineering. He leads several key research groups and laboratories, including the Metallurgical Chemistry Group and the Centre of Applied Engineering for Oil, Gas, and Petrochemical Pipelines and Vessels. His research is not only scientifically significant but also holds direct industrial applications, particularly in Iran’s oil, gas, petrochemical, and automotive sectors. He is an influential figure in corrosion management and surface coating development, having authored numerous books and impactful journal articles. Professor Allahkaram has earned several prestigious national and international awards, including recognition as a Highly Cited Researcher among the Top 2% of Scientists Worldwide in 2024. His leadership extends to academic administration and professional societies, further evidenced by his role as Editor-in-Chief of the journal “Corrosion Science and Engineering.” His research blends fundamental scientific inquiry with practical, solution-driven applications that have benefited both academia and industry. Professor Allahkaram’s extensive career reflects a commitment to advancing corrosion science through teaching, research, and industry collaboration.

Professional Profile

Education

Professor Saeed Reza Allahkaram has pursued an extensive and prestigious academic path primarily in the United Kingdom. He earned his Ph.D. in Materials Science, specializing in Corrosion and Protection of Materials, from Imperial College of Medicine, Science, and Engineering, London, in 1994. His doctoral thesis focused on electrochemical potential mapping and corrosion studies of rapidly solidified processed light alloys. Additionally, he was awarded the D.I.C. Honoree Degree from Imperial College in the same year, highlighting his outstanding academic performance. Prior to his doctoral studies, Professor Allahkaram completed his M.Sc. in Corrosion Science and Engineering from London Guild Hall University in 1987, where his research concentrated on corrosion inhibition studies in controlled environments. He holds a B.Sc. in Applied Physics from the same university, earned in 1985, with a project focused on fiber optic transmission efficiency. His educational journey began with an O.N.D. in Technology from Bromley College of Technology, Kent, in 1981. Throughout his education, he combined theoretical learning with hands-on projects, establishing a solid foundation for his subsequent career in corrosion science. His diverse academic background provided him with both interdisciplinary knowledge and practical skills that have supported his research and teaching excellence for decades.

Professional Experience

Professor Saeed Reza Allahkaram has developed an impressive professional career, marked by leadership roles in both academic and industrial sectors. He has served as a Professor of Corrosion Science and Engineering at the University of Tehran since 1998, where he also leads the Metallurgical Chemistry Group and the Mechanically Assisted Laboratory. Since 2017, he has headed the Centre of Applied Engineering for Oil, Gas, and Petrochemical Pipelines and Vessels, contributing significantly to Iran’s critical infrastructure industries. He has been an active member of the Centre of Excellence for Surface Engineering and Corrosion of Materials since 2015. His professional influence extends beyond academia, having worked as an executive consultant for the Kerman Copper Production Complex between 1999 and 2011. Professor Allahkaram has played a significant organizational role in national scientific communities, including serving as the Executive Secretary of the Eighth National Corrosion Conference in Iran in 2003. He is also the current Editor-in-Chief of the scientific journal “Corrosion Science and Engineering.” His professional experience bridges the gap between fundamental research and industrial application, demonstrating his ability to lead large-scale projects and foster collaborations that impact national industries and infrastructure resilience.

Research Interests

Professor Saeed Reza Allahkaram’s research interests are wide-ranging within the field of corrosion science and engineering. His primary focus is on cathodic and anodic protection techniques, essential for preserving the integrity of pipelines, vessels, and critical structures. He has made significant advances in the development of composite, nano, and self-healing coatings using innovative methods such as plasma electrolytic oxidation (PEO), electroless deposition, electroplating, and electrophoretic deposition. Professor Allahkaram’s work also addresses the mitigation of corrosion caused by DC/AC interference on cathodically protected underground pipelines, a key challenge in modern infrastructure maintenance. He investigates the use of inhibitors and cathodic protection to control corrosion in reinforced concrete structures, extending the life and safety of buildings and industrial plants. His studies further cover stress corrosion cracking (SCC), corrosion fatigue, cavitation corrosion, fretting corrosion, and the erosion resistance of advanced coatings. Additionally, Professor Allahkaram is deeply involved in corrosion cost assessment and the implementation of comprehensive corrosion management systems for industrial equipment. His research seamlessly integrates scientific exploration with practical problem-solving, offering impactful solutions for industries such as oil, gas, petrochemicals, and automotive manufacturing.

Research Skills

Professor Saeed Reza Allahkaram has cultivated advanced research skills throughout his distinguished career in corrosion science. He possesses expert knowledge in electrochemical testing methods, including electrochemical impedance spectroscopy (EIS), potentiodynamic polarization, and electrochemical noise analysis. His technical expertise extends to developing and deploying on-line corrosion monitoring systems, particularly for oil and gas pipeline networks. Professor Allahkaram is proficient in failure analysis techniques, regularly diagnosing complex material degradation in high-risk environments. He has mastered various surface engineering processes such as electroless and electroplating coatings, plasma electrolytic oxidation, and nano-structured coating applications. His hands-on skills also include using wavelet transforms for electrochemical signal processing and employing advanced material characterization tools to evaluate corrosion behavior. Professor Allahkaram demonstrates a unique ability to translate laboratory research into practical industrial solutions, a skill that has led to his successful collaborations with major companies in Iran’s energy sector. He is also an accomplished technical author and educator, having written comprehensive books and developed course materials for undergraduate and postgraduate corrosion engineering programs. His multifaceted research skills position him as a leader in developing both preventive and remedial strategies against corrosion in challenging operational settings.

Awards and Honors

Professor Saeed Reza Allahkaram has received numerous prestigious awards and honors in recognition of his contributions to corrosion science and engineering. Notably, in 2024, he was listed among the Top 2% of Scientists Worldwide as a Highly Cited Researcher, underscoring his significant influence on the global research community. In 2023, the Iranian Corrosion Association honored him as a Veteran in Corrosion Science and Engineering at the 21st National Corrosion Congress of Iran. He was selected as the Outstanding Researcher at the University of Tehran’s 27th Festival of Research in 2018 and similarly recognized in 2013 and 2011. His work on applied industrial research projects, particularly those related to online corrosion monitoring systems in gas refinery plants and transmission pipelines, earned him additional distinctions. Professor Allahkaram has also been celebrated for his research contributions in the automotive industry, particularly with Iran Khodro. His remarkable ability to bridge academic research with industrial applications has been consistently acknowledged at national research festivals and by leading industrial stakeholders. His awards reflect not only the quality and originality of his research but also its tangible impact on infrastructure safety and technological advancement in Iran and beyond.

Conclusion

Professor Saeed Reza Allahkaram is a distinguished figure in the field of corrosion science, whose career has seamlessly integrated academic excellence with impactful industrial contributions. His leadership roles, prolific research output, innovative teaching, and dedication to solving practical engineering problems have made him a highly respected researcher nationally and internationally. His extensive body of work demonstrates a rare ability to translate scientific concepts into real-world applications, particularly in the oil, gas, petrochemical, and automotive sectors. Professor Allahkaram’s recognition among the Top 2% of scientists worldwide and his numerous national awards attest to his sustained influence and the global relevance of his research. His technical skills, leadership in research centers, and role as Editor-in-Chief further emphasize his multifaceted contributions to the scientific community. While future expansion into more international collaborations could further elevate his profile, his current achievements position him as an exemplary researcher and leader in his discipline. Professor Allahkaram’s career embodies the qualities of a Best Researcher Award recipient, blending scientific rigor, practical problem-solving, and academic mentorship to create lasting value in corrosion science and engineering.

Publications Top Notes

  1. Optimization of Ti/TiO2 Nanotube/Nano PbO2 Anodes for Enhanced Electrocatalytic Degradation of Methylene Blue: Pulse vs Direct Current Approaches

    • Authors: H. Eslami, S.R. Allahkaram

    • Year: 2025

  2. Electrophoretic Deposition of Chitosan/Gelatin/Hydroxyapatite Nanocomposite Coatings on 316L Stainless Steel for Biomedical Applications

    • Authors: A. Mohammadsadegh, S.R. Allahkaram, M. Gharagozlou

    • Year: 2025

  3. Enhanced Erosion-Corrosion Resistance of Monolithic ENP Coating on Ductile Cast Iron by Using Electrochemical Pretreatment and Heat Treatment

    • Authors: H. Kheirabadi, S.R. Allahkaram, A. Zarebidaki

    • Year: 2024

  4. Electrochemical Analysis on Localized Corrosion of PEO/Magnesium Oxide Coating

    • Authors: Z. Shahri, S.R. Allahkaram, R. Soltani, H.R. Jafari

    • Year: 2024

    • Citations: 4

  5. Evaluation of Biodegradability of ZX504 Alloy/PEO Coating Using Mott-Schottky, Electrochemical Tests, and Microstructural Analysis

    • Authors: Z. Shahri, S.R. Allahkaram, R. Soltani, H.R. Jafari

    • Year: 2024

    • Citations: 5

  6. Modeling of PEO Coatings by Coupling an Artificial Neural Network and Taguchi Design of Experiment

    • Authors: Z. Shahri, S.R. Allahkaram, R. Soltani, H.R. Jafari

    • Year: 2024

  7. Surface Roughness Increasing of 2205 Duplex Stainless Steel Using Ultrasonic Cavitation Process

    • Authors: F. Alkhaleel, S.R. Allahkaram

    • Year: 2024

    • Citations: 2

  8. Characterization and Corrosion Behavior of Nano-ceramic Coatings Produced by MAO Method: The Role of Process Time

    • Authors: Z. Shahri, S.R. Allahkaram, R. Soltani, H.R. Jafari

    • Year: 2024

    • Citations: 2

  9. Passivation Effects on Corrosion and Cavitation Erosion Resistance of UNS S32205 Duplex Alloy in 3.5% NaCl

    • Authors: F. Alkhaleel, S.R. Allahkaram

    • Year: 2024

  10. Synthesis and Characterization of Electrodeposited Ni-Co Self-Healing Coating with Hybrid Shell Microcapsules

  • Authors: H. Sadabadi, S.R. Allahkaram, A. Kordijazi, P.K. Rohatgi

  • Year: 2024

  • Citations: 1

Li Song | Energy Materials | Best Researcher Award

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Assoc. Prof. Dr. Li Song | Energy Materials | Best Researcher Award

Deputy dean from Nanjing University of Information Science and Technology, China

Dr. Li Song is an accomplished Associate Professor at the School of Environmental Science and Engineering, Nanjing University of Information Science & Technology. With a specialized focus on carbon-based materials for clean energy conversion and storage, Dr. Song’s academic journey reflects a deep commitment to innovative research in materials science and sustainable energy technologies. Her extensive research experience includes prestigious international collaborations and projects supported by leading Chinese and provincial scientific foundations. Her work revolves around designing advanced carbon-based catalytic systems, aiming for improved energy efficiency and sustainability. Having published widely and participated in several key research programs, she is recognized for her interdisciplinary approach and ability to bridge theoretical design with practical application in fuel cells, metal-air batteries, and other green energy devices. Her background includes training and research at globally respected institutions like Case Western Reserve University and SUNY Buffalo, where she collaborated with world-leading experts in electrocatalysis and material engineering. With an eye toward real-world applications, Dr. Song continues to explore the intersection of nanotechnology, catalysis, and clean energy, positioning herself as a future leader in sustainable materials research.

Professional Profile

Education

Dr. Li Song’s academic credentials reflect her dedication to the advancement of materials science, particularly in the realm of clean energy. She earned her Ph.D. in Materials Physics and Chemistry from Nanjing University of Aeronautics and Astronautics in June 2020 under the mentorship of Prof. Jianping He. Her doctoral work focused on the design of advanced carbon-based catalytic materials for green energy applications. During her Ph.D. studies, she gained valuable international exposure through a joint Ph.D. program with Case Western Reserve University (USA), where she worked under the guidance of Prof. Liming Dai, a globally recognized expert in macromolecular science and engineering. This collaboration significantly enriched her expertise in carbon nanomaterials and energy storage systems. Additionally, Dr. Song expanded her research experience as a visiting scholar at SUNY Buffalo, working with Prof. Gang Wu on highly active catalysts for fuel cells. Her academic foundation also includes dual bachelor’s degrees in Metal Material Engineering and English from Nanchang Hangkong University, completed in 2013. This multidisciplinary background not only equipped her with strong technical skills but also enhanced her communication and collaboration abilities, essential for her global research engagements and academic contributions.

Professional Experience

Dr. Li Song has cultivated a robust academic and research career rooted in innovation and international collaboration. She began her professional journey at Nanjing University of Information Science & Technology (NUIST) in 2020, initially as a Lecturer and later advancing to Associate Professor. Her current role involves leading cutting-edge research in carbon-based materials for energy conversion and storage, a field at the forefront of clean energy technology. At NUIST, she has played a central role in developing new materials and catalytic systems, contributing to the university’s reputation for advanced environmental science research. Beyond her responsibilities at NUIST, Dr. Song has gained significant global research experience. Between 2017 and 2019, she served as a joint Ph.D. researcher at Case Western Reserve University, USA, and previously as a visiting scholar at SUNY Buffalo, where she conducted high-impact research on fuel cell catalysts. These international appointments allowed her to work with leading figures in the field and exposed her to diverse, multidisciplinary methodologies. Through her academic appointments, Dr. Song has developed a deep expertise in materials science, catalysis, and sustainable energy applications, which she continues to apply in mentoring students, managing research projects, and publishing innovative scientific work.

Research Interests

Dr. Li Song’s research interests lie at the dynamic intersection of materials science, nanotechnology, and sustainable energy systems. She is particularly focused on the rational design and fabrication of carbon-based catalytic materials for clean energy conversion and storage. Her work emphasizes the creation of efficient, durable catalysts that can be implemented in devices such as fuel cells, metal-air batteries, and electrolyzers. Central to her research is the development of intrinsic active sites in carbon materials through heteroatom doping, structural modification, and topological defect engineering at the atomic scale. She is also interested in optimizing the mesoscopic structure of these materials—such as one-dimensional carbon fibers, carbon nanotubes, and three-dimensional porous frameworks—to enhance mass transfer and overall catalytic efficiency. Furthermore, Dr. Song explores the fundamental catalytic mechanisms governing these systems, aiming to correlate composition and structural features with functional performance. Her long-term goal is to design scalable, high-performance energy devices with real-world applications, thus contributing to the broader shift toward cleaner, more sustainable technologies. Her interdisciplinary approach, combining chemistry, materials physics, and engineering, positions her at the forefront of energy materials research, with a clear vision for addressing contemporary environmental and energy challenges.

Research Skills

Dr. Li Song possesses a diverse and advanced skill set that supports her innovative research in energy materials. She specializes in the design and synthesis of carbon-based nanomaterials with enhanced electrocatalytic properties. Her technical expertise includes heteroatom doping, heterostructure fabrication, and defect engineering to optimize catalytic activity at the atomic level. She is highly proficient in constructing mesoscopic architectures—such as carbon fibers, nanotubes, nanosheets, and core-shell structures—which facilitate mass transfer and improve diffusion rates in catalytic systems. Dr. Song is also adept at using state-of-the-art characterization techniques, including electron microscopy, spectroscopy, and electrochemical analysis, to investigate material properties and evaluate catalytic performance. She has strong competencies in project management and proposal writing, as evidenced by her leadership in multiple grant-funded research projects. Moreover, her international collaborations have equipped her with excellent cross-cultural communication skills and a global perspective on scientific problem-solving. Her background in English, paired with technical proficiency, further enhances her ability to disseminate research through publications, presentations, and academic exchanges. These well-rounded research capabilities make Dr. Song not only a leading scientist in her domain but also a capable mentor and team leader in multidisciplinary projects focused on sustainable technologies.

Awards and Honors

Dr. Li Song’s academic and research excellence is reflected in the prestigious grants and competitive research programs she has secured. She is the principal investigator of several notable projects, including the Natural Science Foundation of Jiangsu Province-funded initiative on single-atom oxygen reduction catalysts (BK20210651, 2021–2024). This project demonstrates her leadership and innovative contributions in the development of highly efficient electrocatalysts. Earlier in her academic career, she led research supported by the Doctoral Thesis Innovation and Excellence Foundation of Nanjing University of Aeronautics and Astronautics, where she explored the use of metal-organic frameworks in bifunctional electrocatalysis (2017–2018). Her work has also been recognized through the Graduate Research Innovation Plan of Jiangsu Province. Additionally, she contributed to a National Natural Science Foundation of China project (11575084) focused on advanced composite coatings and radiation resistance, showcasing her versatility in tackling both theoretical and application-driven challenges. These honors highlight her growing reputation as a researcher capable of securing funding and producing impactful work. Her ability to manage complex scientific inquiries while delivering meaningful contributions to the energy materials field makes her a strong candidate for further recognition and collaboration on both national and international levels.

Conclusion

In conclusion, Dr. Li Song stands out as a highly promising researcher in the field of clean energy materials. Her deep expertise in the synthesis and structural engineering of carbon-based catalysts places her at the cutting edge of sustainable energy research. Through her academic achievements, international collaborations, and leadership in grant-funded projects, she has consistently demonstrated the capacity to bridge theoretical innovations with practical applications. Dr. Song’s focus on the rational design of electrocatalysts, exploration of catalytic mechanisms, and development of scalable energy devices reflects a holistic research philosophy aligned with global sustainability goals. Her interdisciplinary skill set, coupled with strong academic training and a global perspective, equips her to make long-lasting contributions to both science and society. Furthermore, her success in securing competitive research funding and publishing in relevant areas underlines her scientific rigor and professional maturity. As clean energy becomes increasingly vital to global development, researchers like Dr. Song—who combine creativity, technical excellence, and collaborative spirit—will play an essential role. Her trajectory suggests continued innovation and leadership, positioning her as an ideal candidate for future honors and elevated academic positions in the field of materials science and environmental engineering.

Publications Top Notes

  1. Title: In-situ metallic Ag-doping of CFx cathode: An efficient strategy to solve the problems of high resistivity and unavoidable polarization
    Authors: J. Xu, Jianwen; H. Luo, Hao; J. Ma, Jun; L. Song, Li; Y. Jin, Yachao
    Year: 2025
    Journal: Electrochimica Acta

  2. Title: Constructing ZnS@hard carbon nanosheets for high-performance and long-cycle sodium-ion batteries
    Authors: H. Zhang, Huan; F. Yuan, Fengzhou; M. Zhang, Mingdao; H. Zheng, Hegen
    Year: 2025
    Journal: Chemical Engineering Journal

  3. Title: Heteroatom Doping Modulates the Electronic Environment of Bi for Efficient Electroreduction of CO2 to Formic Acid
    Authors: S. Zhao, Sirui; H. Zhou, Heng; D. Cao, Dengfeng; L. Song, Li; S. Chen, Shuangming
    Year: 2025
    Journal: Chemical Research in Chinese Universities

  4. Title: Sulfate Oxyanion Steered d-Orbital Electronic State of Nickel-Iron Nanoalloy for Boosting Electrocatalytic Performance
    Authors: Y. Jin, Yachao; X. Qu, Xijun; Z. Zhou, Zihao; W. Ma, Wenqiang; M. Zhang, Mingdao
    Year: 2025
    Journal: Small

  5. Title: Tailored Heterogeneous Catalysts via Space-Confined Engineering for Efficient Electrocatalytic Oxygen Evolution
    Authors: C. Wu, Chenxiao; C. Liu, Chuang; A. Gao, Ang; H. Guo, Haizhong; L. Gu, Lin
    Year: 2025
    Journal: Advanced Functional Materials

  6. Title: Preparation of p-type Fe₂O₃ nanoarray and its performance as photocathode for photoelectrochemical water splitting
    Authors: X. Fan, Xiaoli; F. Zhu, Fei; Z. Wang, Zeyi; J. He, Jianping; T. Wang, Tao
    Year: 2025
    Journal: Frontiers in Chemistry

  7. Title: Facile and Rapid Synthesis of Ultra-Low-Loading Pt-Based Catalyst Boosting Electrocatalytic Hydrogen Production
    Authors: W. Zhai, Wenjie; J. Wang, Jiayi; M. Zhang, Mingdao; L. Song, Li
    Year: 2025
    Journal: ChemPlusChem

  8. Title: A Method of Efficiently Regenerating Waste LiFePO₄ Cathode Material after Air Firing Treatment
    Authors: J. Ma, Jun; Z. Xu, Ziyang; T. Yao, Tianshun; L. Song, Li; M. Zhang, Mingdao
    Year: 2024
    Journal: ACS Applied Materials and Interfaces

  9. Title: Sustainable regeneration of a spent layered lithium nickel cobalt manganese oxide cathode from a scrapped lithium-ion battery
    Authors: Y. Jin, Yachao; X. Qu, Xijun; L. Ju, Liyun; L. Song, Li; M. Zhang, Mingdao
    Year: 2024
    Citations: 1

  10. Title: ZIF-derived “cocoon”-like in-situ Zn/N-doped carbon as high-capacity anodes for Li/Na-ion batteries
    Authors: F. Yuan, Fengzhou; Z. Chen, Zhe; H. Zhang, Huan; L. Song, Li; M. Zhang, Mingdao
    Year: 2024
    Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects

 

 

Yushuang Zhang | Materials Science | Best Researcher Award

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Mrs. Yushuang Zhang | Materials Science | Best Researcher Award

Assistant Researcher at National University of Defense Technology, China

Yu-shuang Zhang is a dedicated researcher and lecturer at the National University of Defense Technology (NUDT), China, specializing in materials science and nanotechnology. With a strong academic foundation in electronics and materials science, his research focuses on the development of advanced materials for photonics, optoelectronics, and semiconductor applications. He has published extensively in high-impact journals, including Advanced Materials and Nature Communications, demonstrating his expertise in black phosphorus, infrared photodetectors, and quantum dots. His work has gained significant recognition, earning him prestigious awards such as the 2024 Young Scientist Award and the 2020 China Semiconductor Top Ten Research Progress Nomination Award. As an emerging leader in his field, he continues to contribute to the advancement of materials science through cutting-edge research and innovative technological developments.

Professional Profile

Education

Yu-shuang Zhang completed his Bachelor’s degree in Electronics Science and Technology from HeFei University of Technology, China, in 2016. He then pursued a Ph.D. in Materials Science and Engineering at Hunan University, China, completing his doctoral studies in 2022. During his Ph.D., he also conducted research at the CAS Suzhou Institute of Nano-Tech and Nano-Bionics from May 2021 to December 2021, where he gained hands-on experience in nanomaterials and advanced material characterization techniques. His multidisciplinary education in electronics and materials science has provided him with a strong foundation for research in optoelectronics, photonics, and nanotechnology.

Professional Experience

Since 2022, Yu-shuang Zhang has been serving as a lecturer at the National University of Defense Technology (NUDT), China. In this role, he has been actively involved in teaching, mentoring students, and conducting high-impact research. His work primarily focuses on developing next-generation materials for infrared photodetectors, semiconductor applications, and quantum dot technology. His affiliation with NUDT has provided him access to state-of-the-art research facilities, enabling him to work on innovative projects that contribute to advancements in electronic and optical materials. Through his academic and research engagements, he continues to shape the future of materials science while collaborating with leading scientists in his field.

Research Interests

Yu-shuang Zhang’s research interests lie at the intersection of nanotechnology, optoelectronics, and materials science. His primary focus is on black phosphorus and its applications in wavelength-tunable mid-infrared lasers, quantum dot-based fluorescence enhancement, and high-performance infrared photodetectors. He is also deeply involved in studying the epitaxial growth of high-crystalline materials for semiconductor and photonic applications. His work aims to develop novel materials with enhanced electronic and optical properties for use in advanced sensing, imaging, and communication technologies. His research has significant implications for next-generation semiconductor devices and optical computing systems.

Research Skills

Yu-shuang Zhang possesses a wide range of research skills in materials synthesis, nanofabrication, and advanced characterization techniques. He has extensive experience in chemical vapor deposition (CVD), molecular beam epitaxy (MBE), and quantum dot fabrication for optoelectronic applications. He is proficient in using scanning electron microscopy (SEM), transmission electron microscopy (TEM), atomic force microscopy (AFM), and X-ray diffraction (XRD) for material characterization. His expertise also includes spectroscopic techniques such as Raman spectroscopy, photoluminescence (PL) spectroscopy, and infrared spectroscopy. Additionally, he has strong analytical and computational skills, enabling him to model and optimize material properties for specific technological applications.

Awards and Honors

Yu-shuang Zhang has received several prestigious awards in recognition of his research excellence. In 2024, he was honored with the Young Scientist Award at the Seminar on Emerging Functional Materials and Devices in China. In 2020, he was nominated for the China Semiconductor Top Ten Research Progress Award, a testament to the significance of his contributions to semiconductor research. He also received multiple academic honors, including the President’s Scholarship and the Yangtze River Environmental Scholarship from Hunan University in 2020. Additionally, he secured second prize at the 13th Hunan Graduate Innovation Forum, highlighting his innovative research in materials science.

Conclusion

Yu-shuang Zhang is a promising researcher with a strong academic and professional background in materials science and optoelectronics. His contributions to black phosphorus-based mid-infrared lasers, quantum dots, and infrared photodetectors have positioned him as an emerging leader in the field. With multiple high-impact publications and prestigious awards to his name, he has demonstrated exceptional research capabilities. As he continues his work at the National University of Defense Technology, further expanding his independent research projects and international collaborations will strengthen his impact. His expertise and dedication make him a strong candidate for recognition as an outstanding researcher in his field.

Publications Top Notes

Title: “Synergistic Enhancement of Fluorescence Through Plasmon Resonance and Interfacial Charge Transfer by AgNC@AgAux Core–Shell Quantum Dots”

  • Authors: Youlong Chen, Yihua Hu, Yushuang Zhang, Hao Huang, Xing Yang, Youlin Gu, Fanhao Meng, Yuhao Xia, Ziwei Fu, Xinyuan Zhang, et al.

  • Year: 2025

  • DOI: 10.1002/adma.202415388

  • Source: Advanced Materials

2. Title: “Plasmon-Enhanced Fluorescence of Gold Nanoparticle/Graphene Quantum Dots for Detection of Cr³⁺ Ions”

  • Authors: You-Long Chen, Yi-Hua Hu, Xing Yang, You-Lin Gu, Xin-Yu Wang, Yu-Hao Xia, Xin-Yuan Zhang, Yu-Shuang Zhang

  • Year: 2023

  • DOI: 10.1364/PRJ.495683

  • Source: Photonics Research

3. Title: “Growth of Single-Crystal Black Phosphorus and Its Alloy Films Through Sustained Feedstock Release”

  • Authors: Cheng Chen, Yuling Yin, Rencong Zhang, Qinghong Yuan, Yang Xu, Yushuang Zhang, Jie Chen, Yan Zhang, Chang Li, Junyong Wang, et al.

  • Year: 2023

  • DOI: 10.1038/s41563-023-01516-1

  • Source: Nature Materials

4. Title: “A Waveguide-Integrated Two-Dimensional Light-Emitting Diode Based on p-Type WSe₂/n-Type CdS Nanoribbon Heterojunction”

  • Authors: Xin Yang, Rong Wu, Biyuan Zheng, Ziyu Luo, Wenxia You, Huawei Liu, Lihui Li, Yushuang Zhang, Qin Tan, Delang Liang, et al.

  • Year: 2022

  • DOI: 10.1021/ACSNANO.1C10607

  • Source: ACS Nano

5. Title: “Controllable Synthesis of Narrow-Gap van der Waals Semiconductor Nb₂GeTe₄ with Asymmetric Architecture for Ultrafast Photonics”

  • Authors: Yongping Dai, Qiang Yu, Xiaoxin Yang, Kun Guo, Yan Zhang, Yushuang Zhang, Junrong Zhang, Jie Li, Jie Chen, Haiqin Deng, et al.

  • Year: 2022

  • DOI: 10.1021/ACSNANO.1C10241

  • Source: ACS Nano

6. Title: “Erbium Chloride Silicate-Based Vertical Cavity Surface-Emitting Laser at the Near-Infrared Communication Band”

  • Authors: Hepeng Zhao, Xinchao Zhao, Xuehong Zhang, Zhuangzhuang Cui, Yu Ou-Yang, Maobin Xie, Min Zheng, Xueyu Guan, Lijun Wu, Xinglei Zhou, et al.

  • Year: 2022

  • DOI: 10.1364/OL.446752

  • Source: Optics Letters

7. Title: “Gallium Doping-Assisted Giant Photoluminescence Enhancement of Monolayer MoS₂ Grown by Chemical Vapor Deposition”

  • Authors: Bo Liu, Ying Chen, Chao Ma, Ying Jiang, Danliang Zhang, Zheyuan Xu, Ziyu Luo, Huawei Liu, Junyu Qu, Xin Yang, et al.

  • Year: 2022

  • DOI: 10.1063/5.0096169

  • Source: Applied Physics Letters

8. Title: “Infrared Photodetector Based on 2D Monoclinic Gold Phosphide Nanosheets Yielded from One-Step Chemical Vapor Transport Deposition”

  • Authors: Yushuang Zhang, Jie Chen, Cheng Chen, Tengfei Xu, Heng Gao, Zhuo Dong, Yan Zhang, Chang Li, Qiang Yu, Wenzhi Yu, et al.

  • Year: 2022

  • DOI: 10.1063/5.0086166

  • Source: Applied Physics Letters

Nan Wang | Materials Science | Best Researcher Award

Published on by Shen Awards

Assoc. Prof. Dr. Nan Wang | Materials Science | Best Researcher Award

Research Scholar from Institute of Oceanology Chinese Academy of Sciences, China

Nan Wang is an Associate Researcher at the State Key Laboratory of Advanced Marine Materials, Institute of Oceanology, Chinese Academy of Sciences. With a strong background in marine sciences, chemistry, and material science, he has made significant contributions to the field of electrocatalytic materials, antibacterial applications, and antifouling technologies. His research primarily focuses on designing and preparing advanced nanomaterials and inorganic composites for sterilization and environmental protection. Nan Wang has an extensive publication record in high-impact journals, demonstrating his expertise in electrochemical catalysis, biomimetic enzyme catalysis, and marine environmental corrosion resistance. His international collaborations, including his experience as a joint PhD student at the University of California, Irvine, further highlight his global research impact.

Professional Profile

Education

Nan Wang holds a Ph.D. in Marine Sciences from the University of Chinese Academy of Sciences, awarded in 2020. Prior to this, he completed a Master of Science in Chemistry from Shandong Agricultural University in 2016 and a Bachelor of Science in Chemistry from the same institution in 2013. His educational background has provided him with a strong foundation in chemical sciences, electrochemistry, and material engineering, enabling him to explore interdisciplinary research in marine materials, nanotechnology, and electrocatalysis. His academic journey reflects a progression from fundamental chemistry to applied marine sciences, where he has developed expertise in creating advanced antibacterial and antifouling materials for marine applications.

Professional Experience

Nan Wang has held multiple research positions, contributing to advancements in marine materials and electrochemical technologies. Since January 2025, he has been serving as an Associate Researcher at the State Key Laboratory of Advanced Marine Materials, Institute of Oceanology, Chinese Academy of Sciences. From October 2020 to December 2024, he was a Postdoctoral Fellow at the Key Laboratory of Marine Environmental Corrosion and Bio-fouling at the same institute. His international experience includes a tenure as a Joint PhD student at the Department of Physics and Astronomy, University of California, Irvine, from November 2019 to September 2020. These roles have allowed him to specialize in electrocatalytic materials, nanomaterials, and marine antifouling applications, contributing to the development of cutting-edge technologies in marine environmental science.

Research Interests

Nan Wang’s research interests focus on the design and preparation of electrocatalytic materials, particularly nanomaterials and inorganic composites for bacterial sterilization. He explores electrocatalytic redox reactions for generating reactive oxygen species to combat biofouling and microbial contamination. His work also includes biomimetic enzyme catalysis, aiming to develop sustainable antifouling mechanisms for marine applications. Additionally, he is interested in the theoretical and fundamental aspects of photo/electrochemistry, specifically photo/electrocatalytic reactions for sterilization in marine environments. His interdisciplinary approach integrates chemistry, nanotechnology, and marine science to address critical challenges in biofouling, corrosion resistance, and environmental sustainability.

Research Skills

Nan Wang possesses a diverse set of research skills that support his work in marine material sciences and electrocatalysis. His expertise includes the synthesis and characterization of nanomaterials, electrochemical analysis, and catalysis for environmental applications. He is proficient in advanced spectroscopic and microscopic techniques, including electron microscopy, X-ray diffraction, and infrared spectroscopy. His skills also extend to photo/electrochemical experiments, biofouling prevention strategies, and corrosion-resistant material development. Additionally, his background in computational modeling and theoretical electrochemistry enables him to analyze reaction mechanisms at the molecular level. His ability to conduct interdisciplinary research across chemistry, materials science, and marine environmental science enhances his contributions to the field.

Awards and Honors

Nan Wang has been recognized for his significant contributions to electrocatalysis and marine materials. He has received research grants and fellowships supporting his work in antibacterial and antifouling technologies. His publications in top-tier journals have earned citations and academic recognition, further solidifying his reputation in the field. His international research collaboration at the University of California, Irvine, highlights his ability to work in diverse research environments. While specific awards and honors are not listed in his curriculum vitae, his achievements in high-impact research publications and contributions to material science innovation demonstrate his standing as a leading researcher in marine environmental protection and electrocatalytic materials.

Conclusion

Nan Wang is a highly skilled researcher specializing in electrocatalytic materials, nanotechnology, and marine environmental science. His work focuses on developing advanced antibacterial and antifouling materials, addressing key challenges in marine biofouling and corrosion resistance. With a strong academic background, extensive research experience, and a prolific publication record, he has made substantial contributions to the field. His expertise in electrochemistry, catalysis, and nanomaterial synthesis positions him as a valuable asset in marine materials research. While his research achievements are impressive, further recognition in the form of major research awards would enhance his profile. Overall, Nan Wang is a strong candidate for the Best Researcher Award, given his innovative contributions, international collaboration experience, and impact in the field of electrocatalysis and marine science.

Publication Top Notes

  1. Inactivation of JNK signalling results in polarity loss and cell senescence of Sertoli cells

    • Authors: Zhiming Shen, Yang Gao, Xuedong Sun, Min Chen, Changhuo Cen, Mengyue Wang, Nan Wang, Bowen Liu, Jiayi Li, Xiuhong Cui, Jian Hou, Yuhua Shi, Fei Gao
    • Publication Year: 2024

  2. Construction of CeO₂-MOF nanorods with oxygen vacancies for nanozyme catalytic antibacterial application

    • Authors: Meinan Yang, Nan Wang, Xu Wang, Baorong Hou, Wolfgang Sand
    • Publication Year: 2025

  3. The −KTS isoform of Wt1 induces the transformation of Leydig cells into granulosa-like cells

    • Authors: Changhuo Cen, Bowen Liu, Limei Lin, Kai Meng, Fei Gao
    • Publication Year: 2024

  4. Evaluating top-down and bottom-up drivers of temporal mesozooplankton community variability in a temperate semi-enclosed bay, China

    • Authors: Weicheng Wang, Nan Wang, Yantao Wang, Amy E. Maas, Song Sun
    • Publication Year: 2024

 

Soma A. El Mogy | Materials Science | Best Researcher Award

Published on by Shen Awards

Assoc Prof Dr. Soma A. El Mogy | Materials Science | Best Researcher Award

Associate Professor, National institute of standards, Egypt

Assoc. Prof. Dr. Soma A. El Mogy is a distinguished researcher in Materials Science, recognized for her innovative contributions to the field. With a deep understanding of material properties and their applications, Dr. El Mogy has authored numerous influential publications that have advanced the understanding of materials engineering. Her work, which often intersects with sustainability and technological advancements, has earned her the prestigious Best Researcher Award, highlighting her impact on both academia and industry. Dr. El Mogy’s dedication to research and education continues to inspire the next generation of scientists in the field.

Profile

Education 

Assoc. Prof. Dr. Soma A. El Mogy earned her Bachelor of Science degree in Special Chemistry with an “Excellent with honor” distinction from Al-Azhar University in 2005. She continued her academic journey at the College of Science at Al-Azhar University, where she completed her Pre-Masters in 2007, achieving an overall grade of “Very Good.” In 2011, she obtained her Master’s degree in Physical Chemistry, with a thesis titled “Using Rice-Husk as a Filler for Production and Characterization of New Polymer-Composites having Industrial Applications.” Dr. El Mogy further advanced her research, earning her Ph.D. in Science in 2015 with a focus on “Study of the physico-mechanical properties of polypropylene filled with carbon nanotubes.” Her extensive academic background and research expertise have positioned her as a leader in the field of Materials Science.

Training Courses

Assoc. Prof. Dr. Soma A. El Mogy has a robust background in quality training and laboratory techniques, significantly enhancing her expertise in materials science. She has completed numerous quality training courses, including awareness of ISO/IEC 17025:2017 requirements, internal auditing, and method validation for calibration laboratories at the National Institute of Standards. Her training also encompasses quality control charts, intermediate calibration checks, and the estimation of uncertainty in chemical measurements, with a foundational introduction to ISO 17025 dating back to 2008. Additionally, Dr. El Mogy has gained hands-on experience with advanced laboratory equipment for plastics and rubber, having undertaken specialized courses on operating instructions for hardness testers, hardness calibrators, melt flow index (MFI), and Z010/TH2A machines, all completed in compliance with machinery directives in June 2017.

Internationally, she has expanded her expertise through training in nanotechnology technologies and applications under the Association of Materials Science and Engineering and Nanotechnology, as well as academic writing and statistical analysis using SPSS. Her local training includes courses on EndNote application, scientific paper writing and presentation, proposal and report writing, and nanoscience and nanotechnology. She has also engaged in workshops on publishing research open access, nanocarriers and drug delivery, nanostructures, and the future prospects of scientific research. These extensive training experiences highlight Dr. El Mogy’s dedication to maintaining a high standard of excellence in her research and professional activities.

Career

Assoc. Prof. Dr. Soma A. El Mogy began her career as a Research Assistant at the National Institute of Standards in the Metrology and Polymer Technology lab on May 10, 2006. She was promoted to Assistant Researcher on July 11, 2011, and later became a Doctor at the same lab on November 1, 2015. In June 2021, Dr. El Mogy was appointed as an Assistant Professor at the National Institute of Standards in the Material Testing and Surface Chemical Analysis lab in Giza, Egypt. Additionally, she served as a Lecturer in the Chemistry Department at the Faculty of Science, Al-Azhar University (Girls Branch) from September 2016 until 2020.

 

Scientific Workshop Attended

Assoc. Prof. Dr. Soma A. El Mogy has an extensive background in practical and theoretical aspects of scientific research, demonstrated by her participation in numerous specialized training courses and workshops. She has actively engaged in learning about the selection, writing, and submission of research projects, highlighted by her training at the Agricultural Research Center’s Animal Reproduction Research Institute in February 2020. Her skills in synthesizing chitosan nanoparticles were honed at the Naqaa Foundation for Scientific Research in 2019. Dr. El Mogy has also been involved in initiatives that support women in science, energy and water challenges, and the applications of nanotechnology for sustainable packaging, showcasing her commitment to addressing global scientific and environmental issues.

Her expertise extends to intellectual property management and its application in scientific research, as evidenced by her training at the Academy of Scientific Research and Technology in 2019. She has acquired advanced knowledge in scientific research methodologies, publishing within international databases, and managing resources using tools like Mendeley and EndNote. Dr. El Mogy’s dedication to combating predatory journals, reducing fraud in scientific research, and ensuring the integrity of academic work is reflected in her numerous certifications from leading universities and institutions across Iraq and the Middle East. Her participation in workshops on aligning with the publishing process, utilizing statistical data, and leveraging modern knowledge cycles further emphasizes her ongoing pursuit of excellence in research and publication.

Publication Top Notes

  • El Mogy, S. A. (2019). Processing of Polyurethane Nanocomposite Reinforced with Nanosized Zinc Oxide: Effect on Mechanical and Acoustic Properties. Egyptian Journal of Chemistry, 62, 333-341.
  • El Mogy, S. A. (2019). Radiation Crosslinking of Acrylic Rubber/Styrene Butadiene Rubber Blends Containing Polyfunctional Monomers. Radiation Physics and Chemistry, April.
  • Lawandy, S. N., El Mogy, S. A. (2020). Effect of Natural Oil Content and Viscosity on the Adhesion of Nitrile Rubber to Polyester Fabric. Adhesion Science and Technology, Accepted Manuscript, Published online 15 May.
  • Saleh, B. K., El Mogy, S. A. (2020). Use of Waste Rubber and Bionanofiller in Preparation of Rubber Nanocomposites for Friendly Environmental Flooring Applications. Egyptian Journal of Chemistry, 63(7).
  • El Mogy, S. A., Darwish, N. A., Awad, A. (2020). Comparative Study of the Cure Characteristics and Mechanical Properties of Natural Rubber Filled with Different Calcium Carbonate Resources. Journal of Vinyl and Additive Technology, 26(3).
  • Eyssa, H. M., El Mogy, S. A., Youssef, H. A. (2020). Impact of Foaming Agent and Nanoparticle Fillers on the Properties of Irradiated Rubber. Radiochimica Acta, Accepted 2 Nov.
  • Moustafa, H. A. Z., El Mogy, S. A., Mohamed, S. A., Darwish, N. A., Abd El Megeed, A. A. (2020). Bio-Enveloping Inorganic Filler Based Eggshell Wastes for Enhancing the Properties of Natural Rubber Biocomposites. Tire Science & Technology Journal, Accepted 22 July.
  • El Mogy, S. A., Abd El Megeed, A. A. (2020). Improvement of EPDM Properties Using Nanofiller Derived from Biogenic Wastes. International Journal of Science and Research, Accepted 1 Dec.
  • El Mogy, S. A., Khodier, S. A., Abd El-Megeed, A. A. (2017). Effect of Thermal Ageing on Mechanical and Optical Properties of Polystyrene. 13th Arab International Conference on Polymer Science and Technology, 22-26 October, Sharm El-Sheikh, Egypt.
  • El Mogy, S. A., Lawandy, S. N. (2023). Enhancement of the Cure Behavior and Mechanical Properties of Nanoclay Reinforced NR/SBR Vulcanizates Based on Waste Tire Rubber. Journal of Thermoplastic Composite Materials, 08927057231180493.
  • El Mogy, S. A., Lawandy, S. N. (2023). Effect of Black Sand Nanoparticles on Physical-Mechanical Properties of Butyl Rubber Compounds. Journal of Thermoplastic Composite Materials, 36(8), 3361-3382.
  • Abdel-Hakim, A., El Mogy, S. A., Abou-Kandil, A. I. (2021). Novel Modification of Styrene Butadiene Rubber/Acrylic Rubber Blends to Improve Mechanical, Dynamic Mechanical, and Swelling Behavior for Oil Sealing Applications. Polymers and Polymer Composites, 29(9_suppl), S959-S968.
  • El-Wakil, A. E. A. A., El Mogy, S., Halim, S. F., Abdel-Hakim, A. (2022). Enhancement of Aging Resistance of EPDM Rubber by Natural Rubber-g-N (4-phenylenediamine) Maleimide as a Grafted Antioxidant. Journal of Vinyl and Additive Technology, 28(2), 367-378.
  • Abdel-Hakim, A., El-Wakil, A. E. A. A., El Mogy, S., Halim, S. (2021). Effect of Fiber Coating on the Mechanical Performance, Water Absorption, and Biodegradability of Sisal Fiber/Natural Rubber Composite. Polymer International, 70(9), 1356-1366.
  • Rabee, M., El Mogy, S. A., Morsy, M., Lawandy, S., Zahran, M. A. H., Moustafa, H. (2023). Biosynthesis of MgO Nanoparticles and Their Impact on the Properties of the PVA/Gelatin Nanocomposites for Smart Food Packaging Applications. ACS Applied Bio Materials.