Khaja Hussain Shaik | Materials Science | Research Excellence Award

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

Gyeongsang National University | South Korea

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

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Featured Publications

 

Samiha Chaguetmi | Materials Science | Research Excellence Award

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Prof. Samiha Chaguetmi | Materials Science | Research Excellence Award

Professor | University of Skikda | Algeria

Prof. Samiha Chaguetmi, a Professor in the Physics Department at Skikda University in Algeria, is an expert in materials science with a specialization in semiconductor and metallic materials, thin films, and photoactive nanostructures. She holds advanced degrees in materials sciences and semiconductor physics, culminating in a doctoral qualification and subsequent habilitation focused on innovative material systems. Throughout her academic career, she has served as an assistant, lecturer, and senior academic, contributing extensively to teaching in areas such as structural analysis of materials, atomic physics, photovoltaic systems, and characterization methods. Her professional experience spans leadership in laboratory training programs, participation in international research collaborations, and active engagement in multidisciplinary projects involving hydrothermal synthesis, sol-gel processes, chemical bath deposition, magnetron sputtering, electrochemical methods, and advanced thin-film technologies. Prof. Chaguetmi’s research centers on photocatalysis, photo-electrochemical water splitting, and the development of nanostructured materials for energy and environmental applications, supported by expertise in SEM, TEM, XRD, FTIR, Raman spectroscopy, XPS, UV-VIS-DR spectrophotometry, and electrochemical impedance spectroscopy. She has contributed numerous publications to peer-reviewed journals and participated in scientific dissemination through conferences and collaborative programs across prominent international laboratories. Her achievements include recognition through a Research Excellence Award, alongside roles in academic service, mentoring, and scientific review activities. Prof. Chaguetmi is also engaged in professional development through repeated training missions in leading global research institutions, reinforcing her standing as a committed scholar whose work advances the understanding and application of functional materials for sustainable technologies.

Profiles: Scopus | ORCID

Featured Publications

1. Chaperman, L., Chaguetmi, S., Deng, B., Gam-Derrouich, S., Nowak, S., Mammeri, F., & Ammar, S. (2024). Novel synthesis route of plasmonic CuS quantum dots as efficient co-catalysts to TiO₂/Ti for light-assisted water splitting. Nanomaterials, 14(19), 1581.

2. Sobti, N., Chaguetmi, S., Amiour, L., Aouabdia, Y., & Saci, L. (2024). Photocatalytic properties of Mn₂O₃ nanoparticles synthesized via green chemistry method. Journal of Renewable Energies, 28(1).

3. Sobti, N., Chaguetmi, S., Achour, S., Gam-Derouich, S., Decorse, P., Nowak, S., & Ammar, S. (2024). Photoelectrochemical properties of TiO₂ nanofibers coated by copper oxide nanoparticles using sputtering and chemical bath deposition. Journal of Materials Science.

4. Momoli, R., Gandin, A., Ruffo, R., Chaguetmi, S., Mammeri, F., Abbotto, A., Manfredi, N., & Brusatin, G. (2021). Low dye content efficient dye-sensitized solar cells using carbon doped-titania paste from convenient green synthetic process. Inorganica Chimica Acta.

5. Sobti, N., Chaguetmi, S., Achour, S., Chaperman, L., Mammeri, F., & Ammar-Merah, S. (2021). Manganese oxide nanoparticles prepared by olive leaf extract-mediated wet chemistry and their supercapacitor properties. Solid State Sciences.

Prof. Samiha Chaguetmi envisions advancing the field of materials science through innovative research that drives sustainable energy solutions and strengthens the scientific understanding of functional nanomaterials. Her vision focuses on developing high-performance photocatalytic and photoelectrochemical systems, promoting environmentally responsible synthesis routes, and expanding collaborative research networks that bridge local and international scientific communities. She aims to contribute impactful knowledge, mentor future scientists, and support the development of advanced technologies that address global energy and environmental challenges.

Nazim Guseinov | Materials Science | Research and Development Achievement Award

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Mr. Nazim Guseinov | Materials Science | Research and Development Achievement Award

Researcher at Al-Farabi Kazakh National university, Kazakhstan

Mr. Nazim Guseinov is a dedicated researcher in nanotechnology with a strong academic background in solid-state physics and extensive professional experience at the National Nanotechnological Laboratory. His expertise lies in electron microscopy, electron spectroscopy, and electron/ion-beam lithography, which he applies to advanced material characterization and nanostructure fabrication. He has made significant contributions to research on carbon nanostructures, thin films, plasmonic nanocomposites, and graphene-based materials, combining both experimental and computational approaches. His work has been widely published in reputable international journals, reflecting consistent productivity and relevance to global scientific progress. Many of his studies address challenges in electronics, renewable energy, and advanced materials, showcasing the practical potential of his research. While his profile could be further strengthened by highlighting patents, leadership roles, and broader international collaborations, his achievements demonstrate a strong record of scientific excellence. Overall, Mr. Guseinov is a valuable contributor to nanoscience and a deserving candidate for recognition.

Professional Profile 

Scopus Profile | ORCID Profile 

Education

Mr. Nazim Guseinov has a strong educational foundation in physics, having completed both his bachelor’s and master’s degrees in solid-state physics at al-Farabi Kazakh National University. His studies provided him with a deep understanding of material properties, electronic structures, and physical phenomena at the atomic and nanoscale levels. This academic background laid the groundwork for his later specialization in nanotechnology, enabling him to combine theoretical knowledge with practical applications. His training emphasized advanced physics concepts, laboratory research, and modern characterization techniques, equipping him with the skills required to explore the behavior of materials at the nanoscale. The progression from undergraduate to postgraduate studies in the same field reflects a consistent dedication to mastering physics as a discipline. His educational journey has directly influenced his research focus, allowing him to bridge fundamental physics with applied nanoscience, and has positioned him well for a long-term career in advanced materials research.

Experience

Mr. Nazim Guseinov has extensive professional experience as a researcher at the National Nanotechnological Laboratory of Open Type in Kazakhstan, where he has been actively engaged since the beginning of his career. His primary responsibilities involve advanced experimental techniques such as electron microscopy and electron spectroscopy for material characterization, as well as electron-beam and ion-beam lithography for fabricating nanostructures. Over the years, he has contributed to the development and study of diverse nanomaterials, including carbon-based structures, thin films, and nanocomposites with potential applications in electronics and energy technologies. His professional role combines fundamental investigations with practical advancements, bridging academic research and applied innovation. By consistently engaging in multidisciplinary projects and co-authoring numerous scientific publications, he has established himself as a reliable and productive member of the scientific community. His long-term commitment to nanotechnology research demonstrates not only expertise in technical skills but also perseverance and dedication to advancing this field.

Research Focus

The core of Mr. Nazim Guseinov’s research lies in nanotechnology, with a particular emphasis on the study and fabrication of carbon nanostructures, thin films, and advanced nanocomposites. He specializes in applying high-resolution techniques such as electron microscopy and electron spectroscopy to investigate structural, electronic, and optical properties of materials at the nanoscale. His work extends to electron-beam and ion-beam lithography, enabling the creation of nanostructures with precision for scientific and industrial applications. He has also contributed to studies on plasmonic nanocomposites, graphene-based systems, and semiconductor materials, showcasing his versatility across multiple branches of nanoscience. His research outputs cover both experimental exploration and computational modeling, reflecting a comprehensive approach to material science. Many of his studies have potential applications in renewable energy, electronics, sensors, and data storage, demonstrating his focus on socially and technologically relevant areas. Overall, his research reflects a balance between advancing fundamental knowledge and exploring innovative practical solutions.

Award and Honor

While specific awards and honors are not listed in detail, Mr. Nazim Guseinov’s academic and research contributions are reflected through his extensive publication record in respected international journals. His involvement in collaborative projects with fellow scientists and contributions to multidisciplinary studies highlight his recognition within the scientific community. The consistent appearance of his work in high-impact publications such as Micromachines, Nanomaterials, and the Journal of Non-Crystalline Solids serves as an acknowledgment of the quality and significance of his research. Furthermore, his long-term role at a national nanotechnology research laboratory indicates institutional trust and recognition of his expertise in advanced materials research. Although additional details on individual awards, conference honors, or patents could further strengthen this section, his sustained academic productivity and contributions already reflect a form of professional distinction. Collectively, his achievements position him as a promising and deserving candidate for research recognition and professional honors.

Publication Top Notes

  • Electrostatic energy analyzer for nanotechnology applications
    Authors: Guseinov, N.R.; Ilyin, A.M.
    Year: 2021
    Citations: 10

  • Experimental investigation of the distribution of energy deposited by FIB in ion-beam lithography
    Authors: Muratov, M.; Myrzabekova, M.; Guseinov, N.; Nemkayeva, R.; Ismailov, D.; Shabelnikova, Y.; Zaitsev, S.
    Year: 2020

  • Organic Resist Contrast Determination in Ion Beam Lithography
    Authors: Shabelnikova, Y.L.; Zaitsev, S.I.; Guseinov, N.; Gabdullin, M.; Muratov, M.M.
    Year: 2020

  • Percolation conductivity in amorphous carbon films modified with palladium nanoparticles
    Authors: Ryaguzov, A.P.; Nemkayeva, R.R.; Guseinov, N.R.; Assembayeva, A.R.; Zaitsev, S.I.
    Year: 2020

  • Photoluminescence quenching of WS₂ nanoflakes upon Ga ion irradiation
    Authors: Bozheyev, F.; Nemkayeva, R.; Guseinov, N.; Kaikanov, M.; Tikhonov, A.
    Year: 2020

  • Computer simulation and first principles study of Ga-doped graphene nanostructures
    Authors: Ilyin, A.M.; Guseinov, N.R.; Kuanyshbekov, T.K.; Beall, G.W.; Tulegenova, M.A.
    Year: 2019

  • Computer simulation of the effect of structural defects on the effectiveness of graphene’s protective properties
    Authors: Tulegenova, M.; Ilyin, A.; Guseinov, N.; Beall, G.; Kuanyshbekov, T.
    Year: 2019

  • Influence of substrate temperature on the formation of titanium carbide film
    Authors: Kaipoldayev, O.E.; Baigarinova, G.A.; Nemkayeva, R.R.; Guseinov, N.R.; Mukhametkarimov, Y.S.; Tauasarov, K.; Prikhodko, O.Y.
    Year: 2019

  • Nanodefects on microcrystals of YAG-based phosphors
    Authors: Tulegenova, A.T.; Lisitsyn, V.M.; Abdullin, K.A.; Guseinov, N.R.
    Year: 2019

  • Study of the structure of amorphous carbon films modified with silicon oxide
    Authors: Ryaguzov, A.P.; Kudabayeva, M.A.; Nemkayeva, R.R.; Guseinov, N.R.; Myrzabekova, M.M.
    Year: 2019

Conclusion

Mr. Nazim Guseinov has built a strong research portfolio focused on nanotechnology, material science, and advanced electronic applications. His publications span high-impact areas such as electron-beam lithography, graphene-based nanostructures, amorphous carbon films, and photonic/electronic material properties. Collaborating with international teams, he has contributed to both experimental and computational studies that advance the understanding of nanostructured materials and their applications in electronics, sensing, and energy. While many of his works are relatively recent and still accumulating citations, the breadth of topics and consistent productivity highlight his role as an active and promising scientist. His research impact is evident through innovative approaches, interdisciplinary collaborations, and practical applications in nanotechnology, positioning him as a valuable contributor to modern materials science.

Luca Montaina | Chemistry | Best Researcher Award

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Dr. Luca Montaina | Chemistry | Best Researcher Award

Post-Doc at CNR-IMM, Italy

Dr. Luca Montaina is a materials scientist with a PhD in Chemical Sciences, specializing in additive manufacturing and advanced composite materials. His research focuses on the development of conductive and biodegradable polymer composites for applications in flexible electronics and sensing technologies. Currently a research fellow at the National Research Council (CNR) of Italy, he has contributed to multiple interdisciplinary projects involving 3D printing, machine learning, and sustainable materials. Dr. Montaina has published extensively in high-impact journals, showcasing innovative work on electroconductive hydrogels, biodegradable substrates, and smart sensing platforms. He has presented his research at leading national and international conferences and served as a grant reviewer for Poland’s National Science Center. With a strong academic background and a growing international presence, Dr. Montaina demonstrates exceptional promise as a researcher at the intersection of materials science, bioelectronics, and sustainability, making him a valuable contributor to the advancement of next-generation technologies.

Professional Profile 

Scopus Profile
ORCID Profile 

Education

Dr. Luca Montaina holds a solid academic background in materials science and chemical sciences. He earned his PhD in Chemical Sciences from the University of Rome Tor Vergata (2020–2024), with a thesis focused on the development of conductive composite materials through vat photopolymerization 3D printing for advanced flexible electronics. Prior to his doctoral studies, he completed a Master’s degree in Materials Science and Technology from the same university in 2020, graduating with top honors (110/110 cum laude) for his thesis on bio-ink development for scaffold fabrication via 3D printing. He also earned a Bachelor’s degree in Materials Science in 2016, with a thesis on hydrogen absorption measurement systems. To broaden his technical skills, he completed several online certifications in additive manufacturing, machine learning, and circuit design. His education blends chemistry, physics, and engineering, forming a strong interdisciplinary foundation for his research in advanced and sustainable materials.

Professional Experience

Dr. Montaina’s professional experience centers on advanced materials research with a focus on additive manufacturing and flexible electronics. He is currently a research fellow at the Institute for Microelectronics and Microsystems (IMM) of the National Research Council (CNR) of Italy. His most recent work (2025–present) involves the use of additive manufacturing techniques to fabricate biodegradable substrates and active layers for sensing applications. In his prior fellowship at CNR-IMM (2024–2025), he worked on interdisciplinary projects involving 3D printing, machine learning, and biodegradable microelectronics. During his PhD (2020–2024), he collaborated closely with researchers from multiple scientific domains and also contributed to academic life by tutoring undergraduate students in General Chemistry. In each of these roles, Dr. Montaina has demonstrated hands-on expertise in photopolymerization, composite fabrication, and material characterization, positioning himself as a promising contributor to advanced materials research at both national and international levels.

Research Interest

Dr. Luca Montaina’s research interests lie at the intersection of materials science, additive manufacturing, and bioelectronics. His primary focus is on developing innovative polymer composites that are flexible, conductive, and biodegradable—materials that are well-suited for use in next-generation sensing platforms, wearable devices, and biomedical engineering. He is particularly interested in leveraging vat photopolymerization and stereolithographic 3D printing to engineer materials with tailored mechanical and electrical properties. His work also explores the integration of machine learning techniques for spectroscopic sensing and smart diagnostics. Additionally, Dr. Montaina has investigated green and sustainable materials for applications such as dental aligners and cardiac tissue scaffolds. His research has practical relevance in areas such as healthcare, environmental monitoring, and soft electronics. With a strong drive toward sustainable innovation and multidisciplinary approaches, Dr. Montaina is pushing the boundaries of how smart materials can be designed, fabricated, and applied in real-world technologies.

Award and Honor

Although still in the early stages of his research career, Dr. Luca Montaina has already gained recognition through multiple notable achievements. His academic excellence is evident from his graduation with honors in both his bachelor’s and master’s degrees. He has actively participated in prestigious international conferences, delivering oral presentations at events such as FISMAT 2025 and the AIV XXVI Conference, and receiving acceptance for numerous poster contributions. A significant distinction includes his selection as a reviewer for Stage 2 grant evaluations for Poland’s National Science Center (NCN), a role that reflects the scientific community’s trust in his expertise. Additionally, he has contributed as a tutor for undergraduate chemistry courses, highlighting his dedication to academic mentorship. These early recognitions, combined with his robust publication record and growing international presence, signify Dr. Montaina’s potential to become a leading voice in the field of advanced functional materials and sustainable technologies.

Conclusion

Dr. Luca Montaina represents a dynamic and impactful early-career researcher in the field of materials science, with particular expertise in additive manufacturing and flexible, biodegradable electronic materials. His academic foundation is distinguished by top-tier performance and interdisciplinary training, while his professional experience at the National Research Council of Italy underscores his ability to contribute meaningfully to collaborative, high-impact projects. With research spanning smart sensing platforms, sustainable composites, and machine-learning-integrated diagnostics, he demonstrates both technical excellence and visionary thinking. His impressive list of publications, conference engagements, and grant reviewing activities reflect a researcher committed not only to scientific advancement but also to community and knowledge dissemination. As he continues to develop his independent research identity, Dr. Montaina stands out as a promising candidate for prestigious research honors and awards. His trajectory points toward meaningful contributions to both scientific innovation and societal advancement through technology and sustainability.

Publications Top Notes

1. Toward a User‑Accessible Spectroscopic Sensing Platform for Beverage Recognition Through K‑Nearest Neighbors Algorithm

  • Authors: Luca Montaina; Elena Palmieri; Ivano Lucarini; Luca Maiolo; Francesco Maita

  • Year: 2025

2. Enhanced Response of ZnO Nanorod‑Based Flexible MEAs for Recording Ischemia‑Induced Neural Activity in Acute Brain Slices

  • Authors: José Ignacio Del Rio De Vicente; Valeria Marchetti; Ivano Lucarini; Elena Palmieri; Davide Polese; Luca Montaina; Francesco Maita; Jan Kriska; Jana Tureckova; Miroslava Anderova; Luca Maiolo

  • Year: 2025

3. Towards Green Dentistry: Evaluating the Potential of 4D Printing for Sustainable Orthodontic Aligners with a Reduced Carbon Footprint

  • Authors: Elena Palmieri; Luca Montaina; Denise Bellisario; Ivano Lucarini; Francesco Maita; Martina Ielmini; Maria Elena Cataldi; Loredana Cerroni; Roberta Condò; Luca Maiolo

  • Year: 2024

4. Electrically Conductive Scaffolds Mimicking the Hierarchical Structure of Cardiac Myofibers

  • Authors: A. Ul Haq; L. Montaina; F. Pescosolido; F. Carotenuto; F. Trovalusci; F. De Matteis; E. Tamburri; P. Di Nardo

  • Year: 2023

5. Engineered Surface for High Performance Electrodes on Paper

  • Authors: Elena Palmieri; Luca Montaina; Giuseppina Polino; Matteo Bonomo; Gioele Giordanengo; Claudia Barolo; Gaio Paradossi; Francesca Brunetti; Emanuela Tamburri; Silvia Orlanducci

  • Year: 2023

6. A Sustainable Hydroxypropyl Cellulose‑Nanodiamond Composite for Flexible Electronic Applications

  • Authors: E. Palmieri; F. Pescosolido; L. Montaina; R. Carcione; G. Petrella; D.O. Cicero; E. Tamburri; S. Battistoni; S. Orlanducci

  • Year: 2022

7. Three‑Dimensional‑Printed PEGDA‑Polyaniline Composites by In Situ Aniline Photopolymerization: An Innovative Biomaterial for Electrocardiogram Monitoring Systems

  • Authors: L. Montaina; R. Carcione; F. Pescosolido; M. Montalto; S. Battistoni; E. Tamburri

  • Year: 2022

8. PANI‑Modified Ti‑Doped CVD Diamond As Promising Conductive Platform to Mimic Bioelectricity Functions

  • Authors: S. Politi; S. Battistoni; R. Carcione; L. Montaina; S. Macis; S. Lupi; E. Tamburri

  • Year: 2021

9. Beyond the Concepts of Nanocomposite and 3D Printing: PVA and Nanodiamonds for Layer‑by‑Layer Additive Manufacturing

  • Authors: M. Angjellari; E. Tamburri; L. Montaina; M. Natali; D. Passeri; M. Rossi; M.L. Terranova

  • Year: 2017

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

Dr. Mohamed Selim | Chemistry | Best Researcher Award 

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Dr. Mohamed Selim | Chemistry | Best Researcher Award 

Assoc. Prof. Egyptian Petroleum Research Institute, Nasr city, Cairo, Egypt

Dr. Mohamed Sayed Selim is an accomplished Associate Professor at the Egyptian Petroleum Research Institute with over 15 years of research experience in applied chemistry, nanotechnology, and polymer science. He holds a Ph.D. in Organic Chemistry and has conducted extensive postdoctoral research in China and Japan, contributing significantly to advanced coating technologies, environmentally friendly nano-materials, and superhydrophobic surfaces. With a Scopus h-index of 32, over 3,000 citations, and 78 published papers, Dr. Selim has a well-established international research profile. He serves on editorial boards of multiple scientific journals and actively reviews for over 20 high-impact Elsevier publications. His expertise spans the synthesis of functional polymers and nanocomposites for industrial, environmental, and marine applications. A member of several scientific societies, he has demonstrated a strong commitment to academic excellence and collaborative research. Dr. Selim’s contributions position him as a leading figure in materials science and a strong contender for the Best Researcher Award.

Professional Profile 

Google Scholar
Scopus Profile

Education

Dr. Mohamed Sayed Selim holds a robust academic background in chemistry, beginning with a B.Sc. in Special Chemistry (2006) from Menoufiya University, where he graduated with excellence. He went on to earn his M.Sc. in Organic Chemistry in 2012, focusing on the synthesis of functional polymers for cement admixtures. He completed his Ph.D. in Organic Chemistry in 2015 from Ain Shams University, where his doctoral research concentrated on synthesizing environmentally friendly nano-marine antifouling paints. His academic training laid a strong foundation in polymer chemistry, nanomaterials, and surface science, which later became focal points in his professional research. Dr. Selim’s multidisciplinary education, blending organic synthesis with applied materials science, reflects a clear trajectory toward innovation in environmentally conscious technologies. His degrees were pursued in Egypt’s leading universities, positioning him for impactful contributions in both academic and industrial research sectors.

Professional Experience

Dr. Selim’s professional journey spans over 15 years, marked by progressive roles in academia and research. He is currently an Associate Professor at the Egyptian Petroleum Research Institute (EPRI), where he has held several positions since 2012, including Researcher and Assistant Researcher. His international research experience includes postdoctoral fellowships in China at the Guangdong University of Technology and the Chinese Academy of Sciences, and a recent Visiting Researcher role in 2024 at the National Institute for Materials Science (NIMS) in Japan. He also has industrial experience as a chemist in a powder coating factory, enriching his practical understanding of materials science. Dr. Selim’s roles have consistently involved the development of polymer-based materials, nanocoatings, and environmental applications. His professional trajectory highlights a unique blend of theoretical insight and practical execution, contributing to high-impact publications and international collaboration, all while advancing research at the intersection of chemistry, nanotechnology, and surface engineering.

Research Interest

Dr. Mhamed Selim’s research focuses on the synthesis and characterization of advanced polymers, nanomaterials, and environmentally friendly coatings. His work is particularly notable in superhydrophobic surfaces, marine antifouling coatings, and corrosion-resistant materials. He is deeply involved in designing hyper-branched polymers and functional nanocomposites with applications in biotechnology, environmental sustainability, and energy storage. Dr. Selim explores green synthetic approaches for nano-coatings and polymer composites, aligning his work with global priorities in eco-friendly technologies and industrial innovation. His research spans interdisciplinary fields, including applied chemistryhttps://worldtopscientists.com/dr-mohamed-selim-chemistry-best-researcher-award-3739/, materials engineering, and surface science. He has authored over 78 peer-reviewed papers and actively contributes as a reviewer for top-tier journals like Applied Surface Science, Journal of Energy Storage, and Ceramics International. Dr. Selim’s interests reflect a dedication to solving real-world challenges through scientific innovation, positioning him at the forefront of polymer and nanomaterials research in both academic and applied contexts.

Award and Honor

While the CV does not list formal awards, Dr. Selim’s recognition is evident through prestigious academic appointments and international collaborations. He was selected as a Visiting Researcher at Japan’s National Institute for Materials Science (NIMS), a globally respected research center, in 2024—an honor that reflects his expertise and reputation. Additionally, his role as a postdoctoral scholar at top-tier Chinese institutions such as the Chinese Academy of Sciences and Guangdong University of Technology further underscores international acknowledgment of his scientific contributions. He holds editorial board positions for several journals, including Current Chinese Science and Nanoarchitectonics, and serves as a peer reviewer for over 20 high-impact Elsevier journals. These editorial and reviewer roles signify trust and recognition by the global scientific community. Though formal awards are not detailed, Dr. Selim’s cumulative achievements, appointments, and service highlight a career marked by academic distinction, international collaboration, and professional respect.

Conclusion

Dr. Mohamed Sayed Selim stands out as a highly accomplished researcher in applied chemistry, with specialized expertise in polymers, nanomaterials, and eco-friendly coatings. His academic foundation, extensive international experience, and research productivity make him a valuable contributor to the global scientific community. With over 3,000 citations, a Scopus h-index of 32, and 78 publications, he demonstrates a sustained impact in his field. His research has direct applications in critical sectors such as environmental protection, energy, and marine engineering. Beyond publishing, he contributes significantly as a peer reviewer and editorial board member, reflecting his leadership and authority in the field. While additional recognition through formal awards would further validate his contributions, his qualifications and career trajectory position him as a strong candidate for the Best Researcher Award. Dr. Selim’s commitment to scientific advancement, interdisciplinary research, and international collaboration firmly establishes him as a leading figure in modern materials science.

Publications Top Notes

  • Title: Recent progress in marine foul-release polymeric nanocomposite coatings
    Authors: MS Selim, MA Shenashen, SA El-Safty, SA Higazy, MM Selim, H Isago, …
    Year: 2017
    Citations: 529

  • Title: Progress in biomimetic leverages for marine antifouling using nanocomposite coatings
    Authors: MS Selim, SA El-Safty, MA Shenashen, SA Higazy, A Elmarakbi
    Year: 2020
    Citations: 241

  • Title: Silicone/graphene oxide sheet-alumina nanorod ternary composite for superhydrophobic antifouling coating
    Authors: MS Selim, SA El-Safty, NA Fatthallah, MA Shenashen
    Year: 2018
    Citations: 171

  • Title: Silicone/ZnO nanorod composite coating as a marine antifouling surface
    Authors: MS Selim, H Yang, FQ Wang, NA Fatthallah, Y Huang, S Kuga
    Year: 2019
    Citations: 128

  • Title: Synthesis of ultrahydrophobic and thermally stable inorganic–organic nanocomposites for self-cleaning foul release coatings
    Authors: MS Selim, MA Shenashen, A Elmarakbi, NA Fatthallah, S Hasegawa, …
    Year: 2017
    Citations: 123

  • Title: Superhydrophobic coating of silicone/β–MnO₂ nanorod composite for marine antifouling
    Authors: MS Selim, H Yang, SA El-Safty, NA Fatthallah, MA Shenashen, FQ Wang, …
    Year: 2019
    Citations: 119

  • Title: Smart photo-induced silicone/TiO₂ nanocomposites with dominant [110] exposed surfaces for self-cleaning foul-release coatings of ship hulls
    Authors: MS Selim, SA El-Safty, MA El-Sockary, AI Hashem, OMA Elenien, …
    Year: 2016
    Citations: 113

  • Title: Eco-friendly design of superhydrophobic nano-magnetite/silicone composites for marine foul-release paints
    Authors: MS Selim, A Elmarakbi, AM Azzam, MA Shenashen, AM El-Saeed, …
    Year: 2018
    Citations: 108

  • Title: Ti₃C₂Tₓ@ Polyvinyl alcohol foam-Supported Phase Change Materials with Simultaneous Enhanced Thermal Conductivity and Solar-Thermal Conversion Performance
    Authors: Z Mo, P Mo, M Yi, Z Hu, G Tan, MS Selim, Y Chen, X Chen, Z Hao, X Wei
    Year: 2021
    Citations: 104

  • Title: Facile design of graphene oxide-ZnO nanorod-based ternary nanocomposite as a superhydrophobic and corrosion-barrier coating
    Authors: MS Selim, SA El-Safty, MA Abbas, MA Shenashen
    Year: 2021
    Citations: 102

  • Title: Sunflower oil-based hyperbranched alkyd/spherical ZnO nanocomposite modeling for mechanical and anticorrosive applications
    Authors: MS Selim, MA Shenashen, A Elmarakbi, AM El-Saeed, MM Selim, …
    Year: 2017
    Citations: 85

  • Title: Robust alkyd/exfoliated graphene oxide nanocomposite as a surface coating
    Authors: MS Selim, SA El-Safty, MA Shenashen, MA El-Sockary, OMA Elenien, …
    Year: 2019
    Citations: 72

  • Title: A comparative study between two novel silicone/graphene-based nanostructured surfaces for maritime antifouling
    Authors: MS Selim, NA Fatthallah, SA Higazy, Z Hao, PJ Mo
    Year: 2022
    Citations: 71

  • Title: Modeling of spherical silver nanoparticles in silicone-based nanocomposites for marine antifouling
    Authors: MS Selim, SA El-Safty, MA El-Sockary, AI Hashem, OMA Elenien, …
    Year: 2015
    Citations: 71

  • Title: Superhydrophobic Silicone/TiO₂–SiO₂ Nanorod‐like Composites for Marine Fouling Release Coatings
    Authors: OMAE Mohamed S. Selim, Sherif A. El-Safty, Ahmed M. Azzam, Mohamed A …
    Year: 2019
    Citations: 68

Dr. Zeena Pillai | Chemistry | Best Researcher Award

Published on by World Top Scientists

Dr. Zeena Pillai | Chemistry | Best Researcher Award

Professor at Amrita Viswa Vidyapeetham, India

Dr. Zeena S. Pillai is a distinguished Professor of Chemistry at Amrita Vishwa Vidyapeetham, Amritapuri, with over two decades of experience in teaching and research. She holds a Ph.D. in Photochemistry and has completed prestigious postdoctoral fellowships in the United States at the University of Notre Dame and Florida State University. Her research spans organic photochemistry, supramolecular chemistry, nanochemistry, and phytochemistry, with a growing focus on sustainable technologies and Ayurvedic formulations. She has authored over 30 peer-reviewed publications, several book chapters, and has led multiple interdisciplinary research projects. Dr. Pillai has received numerous accolades, including the AIRA Research Award (2025), Best Academician Award (2023), and an Erasmus Mundus Professorship. As a curriculum developer and key contributor to the MHRD Virtual Labs project, she plays a vital role in educational innovation. Her academic excellence, research leadership, and commitment to advancing science make her a strong candidate for the Best Researcher Award.

Professional Profile 

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Education

Dr. Zeena S. Pillai completed her M.Sc. in Chemistry from Mahatma Gandhi University in 1996 and went on to earn a Ph.D. in Photochemistry from the Photonics and Photosciences Division at NIIST, Thiruvananthapuram, affiliated with the University of Kerala, in 2002. Her academic excellence was evident early on, qualifying national competitive exams such as the CSIR-UGC NET and GATE in 1997. She also received the prestigious CSIR Junior and Senior Research Fellowships, supporting her doctoral research. Post-Ph.D., she was awarded competitive postdoctoral research fellowships, first at the Radiation Laboratory, University of Notre Dame, and later at the Department of Chemistry and Biochemistry, Florida State University, USA. These positions provided her with significant exposure to cutting-edge international research. Her academic journey reflects a strong foundation in both theoretical and applied chemistry, combined with a global outlook and a consistent record of achievement across all stages of her education.

Professional Experience

Dr. Zeena S. Pillai brings a wealth of professional experience in both academia and research, marked by a consistent trajectory of growth and leadership. She began her career as a Postdoctoral Research Fellow at the University of Notre Dame (2001–2003) and later at Florida State University (2003–2004), where she worked on photochemical systems and supramolecular materials. Returning to India, she held teaching roles at R.V. College of Engineering, Bangalore (2006), and NSS College for Women, Trivandrum (2008). Since 2009, she has served as a Professor in the Department of Chemistry at Amrita Vishwa Vidyapeetham, Amritapuri Campus. Her responsibilities have included curriculum development, Ph.D. supervision, and spearheading interdisciplinary research initiatives. She has also served as a subject expert in MHRD’s Virtual Labs project under the National Mission on Education through ICT. Her career reflects a blend of research innovation, pedagogical excellence, and national-level academic contribution.

Research Interest

Dr. Zeena S. Pillai’s research is rooted in interdisciplinary and application-driven chemical sciences. Her primary areas of interest include organic photochemistry, supramolecular chemistry, nanochemistry, phytochemistry, and photodynamic therapy. She has explored functional materials such as dendrimers, host–guest systems, and hemicyanines with applications in sensing, drug delivery, and luminescence. She also contributes to sustainable and green chemistry through research on ionic liquids, metal-organic frameworks (MOFs), and carbon capture technologies. Notably, her work bridges traditional systems of medicine and modern chemistry, with several studies on Ayurvedic compounds and ethnobotanicals for pharmacological applications. Dr. Pillai’s active research includes both experimental and theoretical components, as reflected in her numerous publications in high-impact journals like Nature (NPG Asia Materials) and The Electrochemical Society. Her work exemplifies a commitment to solving real-world challenges using modern chemical science while maintaining a strong academic and ethical research foundation.

Award and Honor

Dr. Zeena S. Pillai has been recognized for her research excellence and academic leadership through numerous awards and honors. Recently, she received the AIRA Research Award (2025) from Amrita Vishwa Vidyapeetham and the Best Academician Award (2023) from InAsc. Her international reputation was highlighted by her selection for the prestigious Erasmus Mundus Visiting Professorship at the University of Bologna, Italy, in 2010 and 2011. Earlier in her career, she earned the highly competitive CSIR Junior and Senior Research Fellowships, along with a National Talent Scholarship from India’s Ministry of Education. She also cleared national-level competitive exams such as the CSIR-UGC NET and GATE in Chemistry. These recognitions validate not only the scientific merit of her work but also her contributions to capacity-building in higher education and research. Dr. Pillai’s consistent record of academic distinction and award-winning scholarship strengthens her candidacy for any research-focused honors.

Conclusion

In conclusion, Dr. Zeena S. Pillai stands out as a highly accomplished academic and researcher in the field of chemical sciences. With a solid educational foundation, substantial international research experience, and a deep commitment to interdisciplinary and socially relevant science, she has built a career marked by both scholarly excellence and impactful teaching. Her contributions span from foundational photochemistry to applied research in nanomaterials and Ayurvedic compounds, illustrating a rare blend of tradition and innovation. With over 30 research publications, several book chapters, and leadership roles in national education initiatives, she continues to inspire future generations of scientists. Her awards, fellowships, and invited positions further affirm her role as a thought leader in her discipline. As a result, Dr. Pillai is exceptionally well-qualified for recognition through honors such as the Best Researcher Award, which would be a fitting acknowledgment of her dedication, impact, and ongoing contributions to science and education.

Publications Top Notes

  • Title: What factors control the size and shape of silver nanoparticles in the citrate ion reduction method?
    Authors: ZS Pillai, PV Kamat
    Year: 2004
    Citations: 1092

  • Title: Photoinduced Charge Transfer between CdSe Quantum Dots and p-Phenylenediamine
    Authors: SN Sharma, ZS Pillai, PV Kamat
    Year: 2003
    Citations: 300

  • Title: The VALUE@ Amrita Virtual Labs Project: Using web technology to provide virtual laboratory access to students
    Authors: K Achuthan, KS Sreelatha, S Surendran, S Diwakar, P Nedungadi, ZS Pillai, et al.
    Year: 2011
    Citations: 90

  • Title: Chemistry of cyanine dyes—A review
    Authors: GS Gopika, PMH Prasad, AG Lekshmi, S Lekshmypriya, S Sreesaila, ZS Pillai
    Year: 2021
    Citations: 78

  • Title: Dendrimers as Nd3+ ligands: Effect of Generation on the Efficiency of the Sensitized Lanthanide Emission
    Authors: ZS Pillai, P Ceroni, M Kubeil, JM Heldt, H Stephan, G Bergamini
    Year: 2013
    Citations: 19

  • Title: Effect of viscosity on the singlet-excited state dynamics of some hemicyanine dyes
    Authors: ZS Pillai, PK Sudeep, KG Thomas
    Year: 2003
    Citations: 18

  • Title: Spectroelectrochemistry of aromatic amine oxidation: an insight into the indo dye formation
    Authors: ZS Pillai, PV Kamat
    Year: 2005
    Citations: 17

  • Title: Emerging organic electrode materials for sustainable batteries
    Authors: PM Hari Prasad, G Malavika, A Pillai, S Sadan, ZS Pillai
    Year: 2024
    Citations: 11

  • Title: The stability of the superhydrophobic surfaces
    Authors: JS Jayan, D Jayadev, ZS Pillai, K Joseph, A Saritha
    Year: 2019
    Citations: 10

  • Title: A review on synthesis and various pharmacological aspects of Rhinacanthin-C with special emphasis on antidiabetic activity
    Authors: AS Kumar, M Leema, S Sridevi, S Sreesaila, LJ Anil, M Mohit, H Krishnan, ZS Pillai
    Year: 2021
    Citations: 7

  • Title: Characterization of superhydrophobic polymer coating
    Authors: D Jayadev, JS Jayan, ZS Pillai, K Joseph, A Saritha
    Year: 2019
    Citations: 6

  • Title: Synthesis of silver nanoparticles from a bioactive precursor
    Authors: M Leema, G Sreekumar, A Sivan, ZS Pillai
    Year: 2019
    Citations: 4

  • Title: Lanthanide Terpyridine‐Based Assemblies: Towards Dual Luminescent Probes
    Authors: JK Molloy, Z Pillai, J Sakamoto, P Ceroni, G Bergamini
    Year: 2015
    Citations: 4

  • Title: Synthesis and antibacterial screening of novel derivatives of embelin
    Authors: L Subramanian, M Leema, NS Pradeep, B Joy, ZS Pillai
    Year: 2018
    Citations: 3

  • Title: Synthesis and fine tuning of MOF for hydrogen storage
    Authors: ZS Pillai, PPMH Prasad, ASA Latheef, A Pillai
    Year: 2023
    Citations: 2

Artem Bezrukov | Chemistry | Best Researcher Award

Published on by World Top Scientists

Dr. Artem Bezrukov | Chemistry | Best Researcher Award

Associate Professor at Kazan National Research Technological Universirty, Russia

Dr. Artem N. Bezrukov is a distinguished researcher in microfluidics and lab-on-chip technologies, specializing in the synthesis and modification of smart soft materials. As an Associate Professor at Kazan National Research Technological University (KNRTU), he has made significant contributions to the development of novel materials based on liquid crystals, quantum dots, polymers, and colloids. His expertise spans both fundamental and applied research, focusing on micro-scale material behavior and its applications in advanced technological solutions. With a strong international presence, Dr. Bezrukov has collaborated with global institutions, contributing to academic and industrial advancements in material science. His dedication to education, research, and international cooperation has established him as a key figure in the field, actively shaping the future of smart materials and nanotechnology.

Professional Profile

Education

Dr. Bezrukov holds a Ph.D. in Chemistry from Kazan State Technological University (2010), where he conducted pioneering research in the field of physical and colloid chemistry. His academic journey began with a Specialist degree in Chemical Engineering (2006) from the same institution, equipping him with a solid foundation in materials science and process engineering. In addition to his scientific studies, he earned a qualification as a Translator & Interpreter for Professional Communication (2005), demonstrating his interdisciplinary skill set. His continuous pursuit of knowledge led him to international academic programs, including a Fulbright scholarship and a short-term postdoctoral fellowship in microfluidics at Carnegie Mellon University in 2019. These experiences have contributed to his expertise in interdisciplinary research, enabling him to bridge the gap between chemistry, engineering, and applied nanotechnology.

Professional Experience

Since 2011, Dr. Bezrukov has served as an Associate Professor at the Department of Physical and Colloid Chemistry at KNRTU, where he has played a pivotal role in research and academic development. From 2012 to 2018, he also held the position of Head of the Protocol Office in the International Affairs department, strengthening global academic collaborations for his university. Prior to that, he worked as a Teaching Assistant, gaining experience in mentoring students and advancing research in material sciences. His career has been marked by his ability to integrate research with practical applications, as seen in his contributions to various funded projects, curriculum development, and international research initiatives. His professional trajectory reflects his dedication to both academic excellence and the advancement of innovative scientific research on an international scale.

Research Interests

Dr. Bezrukov’s research is centered on microfluidics and lab-on-chip technologies, with a particular focus on the synthesis and manipulation of smart soft materials. His work explores the unique properties of liquid crystals, quantum dots, polymers, and colloids, seeking to develop advanced materials for use in biomedical, optical, and nanotechnological applications. By integrating microfluidic techniques with material science, he investigates novel approaches to controlling material properties at the microscale. His research is inherently interdisciplinary, combining chemistry, physics, and engineering to create innovative solutions with broad technological applications. Through his work, he aims to bridge the gap between fundamental scientific research and real-world applications, contributing to the development of next-generation functional materials.

Awards and Honors

Dr. Bezrukov has received multiple accolades in recognition of his outstanding contributions to research and education. He was awarded the prestigious Fulbright Scholarship in 2012, which enabled him to engage in international research collaborations. His work has been further recognized through a short-term postdoctoral scholarship at Carnegie Mellon University in 2019, highlighting his expertise in microfluidics. In addition, he has been the recipient of Potanin Foundation grants (2018-2024) for his contributions to developing innovative educational modules. His participation in Erasmus+ Capacity Building and Jean Monnet projects (2019-2022) demonstrates his commitment to international academic cooperation. With over 30 peer-reviewed journal articles and more than 70 total publications, his contributions have earned him recognition as a leading researcher in the field. His accolades reflect his dedication to advancing science and education on a global scale.

Conclusion

Dr. Artem N. Bezrukov is a strong candidate for the Best Researcher Award due to his contributions to microfluidics, international collaborations, and publication record. However, further emphasis on research impact, citations, leadership in major grants, and industry applications could solidify his candidacy. If these aspects are well-documented, he stands as an excellent contender for the award.

Publications Top Noted

Title: Internationalizing engineering education: A language learning approach

Author(s): A. Bezrukov, J. Ziyatdinova

Year : 2014

Citations: 38

Title: Global challenges and problems of Russian engineering education modernization

Author(s) : J.N. Ziyatdinova, P.N. Osipov, A.N. Bezrukov

Year : 2015

Citations: 28

Title: Development of a networking model for internationalization of engineering universities and its implementation for the Russia-Vietnam partnership

Author(s) : J. Ziyatdinova, A. Bezrukov, A. Sukhristina, P.A. Sanger

Year : 2016

Citations: 26

Title: Inbound international faculty mobility programs in Russia: Best practices

Author(s) : A. Bezrukov, J. Ziyatdinova, P. Sanger, V.G. Ivanov, N. Zoltareva

Year : 2018

Citations: 25

Title:

Best practices of engineering education internationalization in a Russian Top-20 university

Author(s) : J. Ziyatdinova, A. Bezrukov, P.A. Sanger, P. Osipov

Year : 2016

Citations: 24

Title: Development of a “smart materials” master’s degree module for chemical engineering students

Author(s) : A. Bezrukov, D. Sultanova

Year : 2020

Citations: 23

Title: Going globally as a Russian engineering university

Author(s) : J. Ziyatdinova, A. Bezrukov, P. Osipov, P.A. Sanger, V.G. Ivanov

Year : 2015

Citations: 22

Title: Flexible learning model for computer-aided technical translation

Author: A. Bezrukov

Year : 2013

Citations: 22

Title: Application of microfluidic tools for training chemical engineers

Author(s) : A. Bezrukov, D. Sultanova

Year : 2020

Citations: 18

Title: International approaches to the development of cross-cultural education at high school

Author(s) : M. Panteleeva, P.A. Sanger, A. Bezrukov

Year : 2016

Citations: 17

Title: Academic writing in the historical and linguistic context: An example of German language

Author(s) : F.F. Nasibullina, A.N. Bezrukov

Year : 2015

Citations: 9

Title:  Effect of the length of surfactant hydrocarbon radicals on the association of cationic polyelectrolytes with alkyl sulfates in water-alcohol solutions

Author(s) : S.V. Shilova, A.N. Bezrukov, A.Y. Tret’yakova, M.A. Voronin, L.Y. Zakharova, …

Year : 2012

Citations: 9

Title:  Effect of molecular weight of poly-N-benzyl-N,N-dimethyl-N-methacryloyloxyethylammonium chloride on its complexation with sodium dodecyl sulfate

Author(s) : S.V. Shilova, A.Y. Tret’yakova, A.N. Bezrukov, V.A. Myagchenkov, …

Year : 2007

Citations: 9

Title:  Orientation behavior of nematic liquid crystals at flow-wall interfaces in microfluidic channels

Author(s) : A. Bezrukov, Y. Galyametdinov

Year : 2023

Citations: 7

Title: On-chip control over polyelectrolyte–surfactant complexation in nonequilibrium microfluidic confinement

Author(s) : A. Bezrukov, Y. Galyametdinov

Year : 2022

Citations:  7

Title: Control of the phase formation process in solutions of anionic polyelectrolyte—cationic surfactant complexes in a microfluidic channel

Author(s) : A.N. Bezrukov, Y.G. Galyametdinov

Year : 2020

Citations: 7

Title:  Internationalization of engineering education

Author(s) : J.N. Ziyatdinova, A.N. Bezrukov

Year : 2015

Citations: 7

Title: Association of sodium dodecyl sulfate with a cationic polyelectrolyte in aqueous-ethanol media

Author(s) : S.V. Shilova, A.N. Bezrukov, A.Y. Tret’yakova, V.P. Barabanov

Year : 2014

Citations: 6

Title: Dynamic flow control over optical properties of liquid crystal–quantum dot hybrids in microfluidic devices

Author(s) : A. Bezrukov, Y. Galyametdinov

Year : 2023

Citations: 5

Title: Characterizing properties of polymers and colloids by their reaction-diffusion behavior in microfluidic channels

Author(s) : A. Bezrukov, Y. Galyametdinov

Year : 2021

Citations: 5