Marius Manole | Biomaterials | Excellence in Research Award

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Assoc. Prof. Dr. Marius Manole | Biomaterials | Excellence in Research Award

Asist Prof | UMF “Iuliu Hatieganu” Cluj-Napoca | Romania

Asist Prof. Manole Marius-Ciprian is a distinguished academic and clinician in the field of dental prosthetics and esthetic dentistry, serving as a senior faculty member within a major medical and pharmaceutical university where he contributes to academic leadership, curriculum innovation and the advancement of dental education. With a doctoral qualification in dental medicine and specialized training in prosthetic and esthetic disciplines, he has developed a comprehensive professional portfolio that integrates advanced clinical expertise with a strong commitment to teaching excellence. His extensive academic experience includes leading courses in prosthetic technologies, esthetic dentistry and dental biomaterials, supervising clinical training across multiple levels of study and contributing to postgraduate and residency programs focused on implant-supported prosthetics, ceramic biomaterials and complex restorative procedures. He has held key academic roles that support institutional development, including coordinating educational activities, shaping academic strategy and fostering quality improvement across dental programs. Alongside his university responsibilities, he maintains active clinical practice, providing advanced restorative, prosthetic and esthetic treatments and overseeing the administrative management of a specialized dental practice. His research interests span dental prosthetics, supra-implant rehabilitation, esthetic materials and clinical innovation, reflected in a body of publications that contribute to the evidence base of modern dental practice. His work has earned recognition for research excellence and he remains actively engaged in professional development initiatives, academic committees, continuing education programs and collaborations that promote high standards in dental training and patient care. Through his combined achievements in teaching, research, leadership and clinical practice, Manole Marius-Ciprian exemplifies a strong and sustained contribution to the advancement of dental medicine.

Profiles: Google Scholar | Scopus

Featured Publications

1. Bordea, I. R., Candrea, S., Sălăgean, T., Pop, I. D., Lucaciu, O., Ilea, A., Manole, M., … (2021). Impact of COVID-19 pandemic on healthcare professionals and oral care operational services: A systemic review. Risk Management and Healthcare Policy, 453–463.

2. Earar, K., Antoniac, V. I., Baciu, S., Bran, S., Onisor, F., Milea, C., Mohan, A., … (2017). Etching treatment effect on surface morphology of dental structures. Matrix, 4–5.

3. Burde, A. V., Gasparik, C., Baciu, S., Manole, M., Dudea, D., & Câmpian, R. S. (2017). Three-dimensional accuracy evaluation of two additive manufacturing processes in the production of dental models. Key Engineering Materials, 752, 119–125.

4. Ioniță, M., Vlăsceanu, G. M., Toader, A. G., & Manole, M. (2023). Advances in therapeutic contact lenses for the management of different ocular conditions. Journal of Personalized Medicine, 13(11), 1571.

5. Manea, A., Baciut, G., Baciut, M., Pop, D., Comsa, D. S., Buiga, O., Trombitas, V., … (2019). New dental implant with 3D shock absorbers and tooth-like mobility—Prototype development, finite element analysis (FEA), and mechanical testing. Materials, 12(20), 3444.

Asist Prof. Manole Marius-Ciprian’s work advances the field of dental medicine through innovations in prosthetic technologies, biomaterials and esthetic rehabilitation, strengthening evidence-based practice and improving patient outcomes. His academic leadership and research contributions support the development of modern dental education and clinical standards, driving progress that benefits both the scientific community and broader healthcare systems.

Stanica Nedović | Corrosion of Steels | Best Researcher Award

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Mr. Stanica Nedović | Corrosion of Steels | Best Researcher Award

Stanica Nedović | University of Montenegro | Montenegro

Mr. Stanica Nedović is a dedicated Doctorandus of Maritime Science at the Maritime Faculty, University of Montenegro, specializing in materials engineering and corrosion science. He holds a University Diploma in Materials Engineering and a Master of Science in Metallurgy and Materials Engineering from the University of Ljubljana, Slovenia. His professional and research experience is centered on the degradation behavior, corrosion resistance, and cavitation erosion of advanced steels in marine environments, contributing to the advancement of materials reliability and sustainability in maritime and industrial applications. Mr. Nedović has authored multiple peer-reviewed publications and presented at international scientific conferences, demonstrating strong analytical and experimental capabilities. His work is characterized by an interdisciplinary approach that integrates materials characterization, mechanical testing, and surface analysis techniques to improve corrosion monitoring and protective strategies. He has collaborated effectively with research teams, contributing to projects aimed at optimizing metal performance in challenging environments. Mr. Nedović has been recognized for his commitment to innovation and research excellence and is regarded as a promising young scientist with growing international visibility. His ongoing contributions highlight both his scientific rigor and his potential for leadership in materials science, corrosion engineering, and maritime technology development.

Profiles: ORCID

Featured Publications

1. Nedović, S., Alil, A., Martinović, S., Dikić, S., Glišić, D., & Volkov-Husović, T. (2025). Novel approach to the surface degradation assessment of 42CrMo4 steel in marine and cavitation erosion environments. Metals.

2. Nedović, S., Alil, A., Martinović, S., Dikić, S., & Volkov-Husović, T. (2025). Influence of pre-corrosion in NaCl solution on cavitation resistance of steel samples (42CrMo4). Metals.

Mr. Stanica Nedović’s research advances the understanding of material degradation and corrosion resistance, offering innovative solutions to enhance the durability of engineering components in harsh marine environments. His work contributes to sustainable industrial practices, improved safety in maritime operations, and the global effort to develop more resilient and efficient materials for future technologies.

Gulzat Nuroldayeva | Electrochromic Devices | Best Researcher Award

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Ms. Gulzat Nuroldayeva | Electrochromic Devices | Best Researcher Award

Gulzat Nuroldayeva | Nazarbayev University | Kazakhstan

Ms. Gulzat Nuroldayeva is a PhD candidate in Chemistry at Nazarbayev University, specializing in the chemistry and technology of organic substances, natural compounds, polymers, and advanced electrochemical materials. She holds a Bachelor’s degree in Chemical Technology of Organic Substances from Al-Farabi Kazakh National University and a Master of Science in Chemistry from Nazarbayev University. Her professional experience includes laboratory and research roles at KazTransOil, Lanolin LLP, and the Institute of Batteries, where she contributed to projects on oil purification, organic synthesis, and the development of lithium-ion and electrochromic batteries. Gulzat’s research focuses on the synthesis, purification, and characterization of organic compounds and the design of functional materials for sustainable energy storage applications. Her publications have received notable citations, reflecting the impact of her work in electrochemistry and material science. She has demonstrated strong technical expertise in analytical techniques such as NMR, chromatography, and electrochemical testing, alongside leadership in collaborative research initiatives. Recognized for her academic excellence and contributions to innovative battery technologies, Gulzat Nuroldayeva represents a new generation of scientists dedicated to advancing green energy solutions through interdisciplinary chemical research.

Profiles: Google Scholar | Scopus

Featured Publications

1. Nuroldayeva, G., Serik, Y., Adair, D., Uzakbaiuly, B., & Bakenov, Z. (2023). State of health estimation methods for lithium-ion batteries. International Journal of Energy Research, 2023(1), 4297545.

2. Nuroldayeva, G., & Mannix, B. P. (2023). Flexing the spectrum: Advancements and prospects of flexible electrochromic materials. Polymers, 15(13), 2924.

3. Nuroldayeva, G., Adair, D., & Bakenov, Z. (2023). Revealing phase transition in Ni-rich cathodes via a nondestructive entropymetry method. ACS Omega.

4. Nuroldayeva, G., Umurzak, T., Kireyeva, A., Aishova, A., Mukhan, O., Kim, S. S., … & Bakenov, Z. (2025). A comparative study of bulk and surface W-doped high-Ni cathode materials for lithium-ion batteries. Nanoscale, 17(13), 8192–8205.

5. Amire, N., Almagambetova, K. M., Turlykul, A., Taishybay, A., Nuroldayeva, G., … & Bakenov, Z. (2022). Triflic acid-promoted post-Ugi condensation for the assembly of 2,6-diarylmorpholin-3-ones. Organic & Biomolecular Chemistry, 22(48), 9379–9387.

 

Liana Mogilnikova | Materials Science | Best Researcher Award

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Mrs. Liana Mogilnikova | Materials Science | Best Researcher Award

Liana Mogilnikova  | MISIS | Russia

Mrs. Liana Mogilnikova is a dedicated and accomplished researcher specializing in the study of hexagonal ferrites and magnetically hard materials. Her research focuses on understanding phase transformations and crystal structures, contributing valuable insights into the synthesis and characterization of strontium hexaferrite. Through meticulous experimentation and analytical precision, she has developed a comprehensive methodology for investigating the structural and phase states of ferrite materials. Her scholarly contributions, reflected in publications in reputed journals, demonstrate her commitment to advancing material science and magnetic materials research. With strong skills in data analysis, academic writing, and conference presentation, she effectively communicates complex scientific findings to the research community. Her work not only deepens the understanding of ferrite synthesis mechanisms but also lays the foundation for future innovations in nanostructured and energy-efficient magnetic materials, establishing her as a promising and impactful researcher in her field.

Profiles: Scopus | ORCID

Featured Publications

1. Mogilnikova, L. D., Menushenkov, V. P., Mogilnikov, P. S., & Savchenko, A. G. (2025). Phase transformations in the synthesis process of strontium hexaferrite SrFe₁₂O₁₉ by the sol-gel method. Journal of Alloys and Compounds, 1042, 183995.

Dr. Han Zhang | Materials Science | Best Researcher Award

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Dr. Han Zhang | Materials Science | Best Researcher Award

Doctor at Northeastern University, China

Han Zhang is a dedicated and skilled researcher in metallurgical engineering, currently pursuing her Ph.D. at Northeastern University, China. Her research focuses on electromagnetic metallurgy, steel refining, and numerical simulation of multiphase flows, with significant contributions to the understanding of tundish flow behavior and inclusion removal. She has authored several high-quality publications in leading international journals, demonstrating both technical depth and innovation. Han is proficient in advanced simulation tools such as OpenFOAM, ANSYS, and Fluent, and actively participates in national research projects and academic conferences. Her strong foundation in both theory and practical application is supported by previous experience in industrial fluid systems and flow metering. While still developing her international collaborations and independent research leadership, Han Zhang shows exceptional potential as a rising researcher. Her work contributes meaningfully to the advancement of high-quality steel production and reflects a high level of academic commitment and technical excellence.

Professional Profile 

ORCID Profile 

Education

Han Zhang has a solid academic foundation in metallurgical engineering. She earned her bachelor’s degree from Chongqing University of Science and Technology in 2015, focusing on mineral composition and phase structure analysis in sintered ores. She then completed her master’s degree in steel metallurgy at Northeastern University in 2018, where she studied the behavior of molten steel in tundishes with channel-type induction heating through numerical simulations. Continuing at Northeastern University, she began her Ph.D. in 2020 at the Key Laboratory of Electromagnetic Processing of Materials, focusing on advanced refining and casting technologies. Her doctoral research emphasizes the electromagnetic control of molten steel flow, multiphase modeling, and process optimization. Throughout her academic journey, she has demonstrated consistent excellence in both theoretical understanding and applied research. Her progression from undergraduate to Ph.D. reflects a focused and deepening commitment to solving complex metallurgical challenges using cutting-edge computational and experimental approaches.

Professional Experience

Han Zhang has accumulated valuable professional experience that bridges academic research and industrial practice. From 2018 to 2020, she worked as an Assistant Engineer at the Liaoning Institute of Industrial Fluid Science, where she focused on industrial flow metering optimization and energy-saving technologies. Her work involved the design, manufacturing, and maintenance of flow metering devices, contributing to more efficient fluid systems in industrial operations. Concurrently, she enhanced her technical skills in instrumentation and data analysis, which later supported her doctoral research. Before this role, during her master’s and doctoral studies at Northeastern University, she engaged in multiple funded research projects related to electromagnetic processing and molten metal flow. Her hands-on experience with numerical simulation platforms, fluid modeling, and industrial-scale measurement devices positions her as a researcher with both academic insight and real-world engineering competence. This combination of research and industry exposure enables her to approach metallurgical challenges with practical and impactful solutions.

Research Interest

Han Zhang’s research interests lie in the interdisciplinary fields of metallurgical engineering, electromagnetic processing, and computational modeling. Her primary focus is on the behavior of molten steel during secondary refining and continuous casting, especially under the influence of electromagnetic fields. She investigates flow characteristics, inclusion behavior, and residence time distribution (RTD) within tundishes and reactors using advanced multiphase modeling techniques such as Euler-PBM coupling. She also explores intelligent alloy prediction and process control using machine learning and high-performance computing. Her studies aim to improve steel cleanliness, casting efficiency, and product quality in high-grade steel manufacturing. In addition, Han is skilled in using simulation platforms like OpenFOAM, ANSYS Fluent, and CFX for modeling fluid flow and heat transfer, which support her innovative approaches in virtual process optimization. Her work is both theoretically rich and industrially relevant, reflecting a strong alignment with current and emerging challenges in the steel industry.

Award and Honor

While specific awards and honors are not detailed in the available profile, Han Zhang’s achievements are reflected through her active involvement in prestigious national research projects and high-quality journal publications. She has contributed to major funded research supported by the National Natural Science Foundation of China and central university grants, which indicates recognition of her academic capabilities and research potential. Her inclusion as a first or co-author in respected journals such as Steel Research International and Metallurgical and Materials Transactions B highlights her scientific merit. Participation in international conferences and symposia further reflects her recognition in the academic community. Additionally, she holds the National Computer Proficiency Certificate (Level 2), and her consistent academic progression and technical excellence suggest strong internal recognition within her institution. Though no individual accolades are listed, her publication record and research leadership stand as honors in themselves, positioning her as a promising candidate for future academic and industry awards.

Conclusion

Han Zhang is an emerging talent in metallurgical engineering, combining strong academic training, practical industry experience, and a research focus aligned with pressing technological needs in steel production. Her work on electromagnetic processing, inclusion removal, and molten metal behavior demonstrates deep technical understanding and innovative problem-solving skills. With multiple first-author publications in high-impact journals, participation in national-level research, and a firm command of simulation technologies, she stands out as a capable and driven researcher. While she continues to build her international profile and independent leadership, her achievements thus far mark her as a strong candidate for research awards and academic recognition. Her dual strengths in computation and practical engineering provide her with a unique edge in advancing both the science and industry of metallurgy. Han Zhang is well-positioned to contribute significantly to the future of high-performance materials processing and is a valuable asset to any academic or research institution.

Publications Top Notes

1. Two‑Way PBM–Euler Model for Gas and Liquid Flow in the Ladle

  • Title: Two‑Way PBM–Euler Model for Gas and Liquid Flow in the Ladle

  • Journal: Materials

  • DOI: 10.3390/ma16103782

  • Published Date: May 17, 2023

  • Citations: 2–3 (based on public sources like ResearchGate and Google Scholar)

2. Deep Insight into the Pinch Effect in a Tundish with Channel‑Type Induction Heater

  • Title: Deep Insight into the Pinch Effect in a Tundish with Channel‑Type Induction Heater

  • Journal: Steel Research International

  • DOI: 10.1002/srin.202200181

  • Published Date: September 2022

  • Citations: Exact count not publicly listed, but cited in subsequent related works

Muhammad Arshad | Material Sciences | Best Research Article Award

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Dr. Muhammad Arshad | Material Sciences | Best Research Article Award

Principal Scientific Officer, Nanosciences and Technology Department, National Centre for Physics, Quaid-i-Azam University Islamabad, Pakistan

Dr. Muhammad Arshad is a distinguished Staff Scientist at the Nanoscience & Technology Department (NS&TD) of the National Centre for Physics (NCP) at Quaid-i-Azam University (QAU) Campus, Islamabad, Pakistan. He previously served as a Principal Scientific Officer and Associate Professor at the same institution. Dr. Arshad manages advanced spectroscopy and microscopy systems, including X-ray photoelectron spectroscopy (XPS), scanning tunneling microscopy (STM), and atomic force microscopy (AFM). He also contributes as a visiting faculty member in the Department of Physics at QAU. 🧪🔬

Publication Profile

Scopus

Strengths for the Award:

  1. Expertise and Technical Skills:
    • Muhammad Arshad demonstrates a broad and deep technical expertise in the synthesis, characterization, and investigation of advanced materials, particularly carbon-based nanostructures. His experience with cutting-edge techniques such as X-ray photoelectron spectroscopy (XPS), scanning tunneling microscopy (STM), and atomic force microscopy (AFM) is a significant asset.
    • His ability to handle and operate sophisticated equipment and software for data analysis showcases his high-level technical skills and hands-on experience, crucial for impactful research.
  2. Research Contributions:
    • Arshad has an impressive record of publications in reputable journals, highlighting his contributions to various fields, including energy storage devices, graphene-based materials, and spectroscopy. His recent papers indicate ongoing advancements and active engagement in his research areas.
    • His research on energy conversion and storage devices, as well as two-dimensional materials, addresses important and contemporary scientific challenges.
  3. Institutional and International Experience:
    • His experience working at renowned institutions like Lawrence Berkeley National Laboratory and Advanced Light Source, as well as his role in establishing and managing a surface science laboratory, demonstrates his capability to work at an international level and contribute to significant scientific projects.
  4. Educational Background:
    • His strong educational foundation, with a Ph.D. from the University of Groningen and extensive teaching experience, further solidifies his qualifications as a leading researcher in his field.

Areas for Improvement:

  1. Broader Impact and Outreach:
    • While his technical skills and research contributions are strong, enhancing the broader impact of his work through public outreach, collaborations with industry, or policy influence could strengthen his candidacy for the award.
    • Increasing visibility through more high-profile publications or presentations at major conferences could further establish his reputation in the scientific community.
  2. Interdisciplinary Research:
    • Exploring interdisciplinary research opportunities could expand the applications of his work and demonstrate versatility in addressing diverse scientific questions. This could also involve collaborating with researchers from different fields to tackle complex, multifaceted problems.

 

Education

Dr. Arshad earned his Ph.D. in 2018 from the Zernike Institute for Advanced Materials, University of Groningen, Netherlands, focusing on carbon-based hybrid nanostructures. He completed his M.Phil. in Physics in 2006 from Quaid-i-Azam University, Islamabad, and his M.Sc. in Physics in 2003 from Government College University, Lahore, Pakistan. 🎓📚

Experience

Dr. Arshad’s expertise spans the synthesis of carbon-based hybrid nanostructured materials and the growth of thin films and carbon nanostructures. He has substantial experience with synchrotron-based XPS at Lawrence Berkeley National Laboratory (LBNL) and has played a key role in establishing surface science laboratories at NCP. His technical skills include handling XPS, STM, AFM, and Raman spectroscopy systems, among others. 🌟🔧

Research Focus

Dr. Arshad’s research interests include energy conversion and storage devices, graphene-based composites, and the spectroscopy and microscopy of thin films and 2D materials. His work focuses on the synthesis, characterization, and investigation of advanced nanomaterials and their properties. 🔋📈

Awards and Honours

Dr. Arshad has been recognized for his significant contributions to nanoscience and technology, including awards for his research in nanostructured materials and spectroscopy. His work has earned him recognition within the scientific community for advancements in material science and surface analysis. 🏆🎖️

Publication Top Notes

S. Sharif, T. Ahmed, Z. Ahmad, M. A. Choudhary, M. Arshad, “Synthesis and characterization of Ag@Ni co-axial nanocables and their fluorescent and catalytic properties,” Science and Engineering of Composite Materials, 31(1), 20240010 (2024). 📄

N. Athar, G. Naz, M. Ramzan, M. S. Sadiq, M. Arshad, et al., “Enhanced sunlight-driven photocatalysis owing to synergetic effect of gold nanoparticles-incorporated ZnO/rGO ternary heterostructures,” J. K. Saud University-Science, 36(3), 103104 (2024). 🌟

E. Dogan, S. Altundag, S. Altin, M. Arshad, et al., “Production of V‐Doped P2‐type Na0.67Mn0.5Fe0.43Al0.07O2 Cathodes and Investigation of Na‐Ion Full Cells Performance,” Energy Technology, 12(1), 2300837 (2024). 🔋

S. Irfan, Y. A Haleem, M. Usman, N. Ahmad, M. Arshad, et al., “Validating superior electrochemical properties of Ti3C2 MXene for supercapacitor applications through first-principles calculations,” New J. Chem., 48, 4982 (2024). 🔬

U. Younas, M. Atif, M. Sahil, T. Ali, M. Arshad, et al., “Structural, optical, dielectric, and ferroelectric properties in BaTi1−xCrxO3 ceramics prepared by a solvothermal reflux approach,” Ceramics International, 50(3), 4469-4479 (2024). 📘

M. Arshad, L. Sorba, P. Rudolf, C. Cepek, “Synthesis and Characterization of Carbon Nanofibers Grown on Vertically Aligned InAs Nanowires Via Chemical Vapour Deposition,” Nanomaterials, 13, 3083 (2023). 📖

Conclusion:

Muhammad Arshad’s robust technical expertise, impressive publication record, and significant contributions to advanced materials research make him a strong candidate for the Best Researcher Article Award. His work in energy storage, graphene-based materials, and advanced spectroscopy techniques demonstrates both depth and breadth in his research. While he has a solid foundation and excellent credentials, expanding his impact through broader outreach and interdisciplinary collaboration could enhance his profile even further. Overall, his qualifications and achievements align well with the criteria for this prestigious award.

 

Abear El-Gamal | Materials Science | Best Researcher Award

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

Professor Assistant | Cairo University | Egypt

Best Researcher Award

Strengths for the Award

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

Areas for Improvement

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

Conclusion

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

🎯 Short Bio

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

Profile

Orcid

🎓 Education

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

🧑‍🔬 Experience

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

🔬 Research Interest

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

🏆 Awards

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

📚 Publications

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

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

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

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

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

 

 

Olga Shcherbina | Luminescent ceramics | Best Researcher Award

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Prof. Olga Shcherbina | Luminescent ceramics | Best Researcher Award

Senior researcher, Tananaev Institute of Chemistry – Subdivision of the Federal Research Centre «Kola Science Centre of the Russian Academy of Sciences» Science Centre of Russian Academy of Sciences, Russia

🧪 Olga Borisovna Shcherbina is a Senior Researcher at the Laboratory of Electronic Materials at the I.V. Tananaev Institute of Chemistry and Technology of Rare Elements and Mineral Resources, Kola Science Center, Russian Academy of Sciences. With a career spanning over three decades, she is an expert in the field of crystalline and ceramic functional materials.

Profile

Scopus

Education

🎓 In 1987, Olga graduated from the Leningrad Electrotechnical Institute named after Ulyanov (Lenin). She earned her Candidate of Technical Sciences degree in 2012 with a focus on “Crystalline and Ceramic Functional and Structural Materials Based on Niobium and Tantalum Oxide Compounds with Micro- and Nanostructures.”

Experience

💼 After graduation, Olga worked at the Scientific and Production Association “Severnaya Zarya” as an engineer and later as the head of the single-crystal processing and control section. Since November 1999, she has been with the Kola Science Center, focusing on research in electronic materials.

Research Interest

🔬 Olga’s scientific interests include the production of crystalline and ceramic functional materials based on niobium and tantalum oxides, the effects of concentrated light fluxes on these materials, and the study of their mechanical, structural, and optical properties. She also explores the modification of lithium niobate and tantalate crystals to achieve near-stoichiometric compositions.

Awards

🏆 Throughout her career, Olga has received recognition for her contributions to materials science, particularly in the study and application of niobium and tantalum oxide compounds.

Publications Top Notes

📚 Olga has published over 50 articles in refereed journals and co-authored the monograph “Synthesis, properties of LiNbO3 and LiTaO3 crystals with micro- and nanostructures.” Below are some of her notable publications:

Influence of growth conditions on the domain structure of LiNbO3 Gd single crystals (Inorganic Materials, 2008, Vol. 44, No. 3, pp. 360-365)

Periodic micro- and nanostructures in Gd-doped lithium niobate single crystals grown under highly non-stationary conditions (Inorganic Materials, 2010, Vol. 46, No. 3, pp. 1-8)

Micro- and nanostructures in lanthanide-doped lithium niobate single crystals (Crystallography, 2010, Vol. 55, No. 5, pp. 860-863)

Micro- and nanostructures and electrophysical properties in lanthanide-doped lithium niobate single crystals (Non-ferrous Metals, 2011, No. 11, pp. 44-48)

Study of stoichiometric lithium tantalate crystal obtained by VTE processing (Perspective Materials, 2011, Vol. 2, No. 13, pp. 659-663)