Dr. Gusev Sergey | Nanotechnology | Outstanding Contributions in Academia Award

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Dr. Gusev Sergey | Nanotechnology | Outstanding Contributions in Academia Award

IPM RAS | Russia

Author Profile 

ORCID 

Summary

Gusev Sergey, born in nizhniy novgorod, is a senior research associate in the magnetic nanostructures department of ipm ras with a phd in physics. he has a strong academic foundation from n. i. lobachevsky state university and a distinguished career spanning decades in applied physics research. his expertise lies in analytical electron microscopy, nanotechnology, electronic lithography, and metal nanostructures. throughout his career, he has contributed to both experimental and theoretical studies, guided newcomers, and influenced the field of nanostructures through mentorship and impactful research.

Early academic pursuits

Gusev Sergey  in nizhniy novgorod. from an early age, he displayed a keen interest in physics and scientific exploration. he pursued his studies at the faculty of physics of n. i. lobachevsky state university of nizhniy novgorod, where he built a strong foundation in theoretical and experimental physics. during this period, he nurtured his research curiosity, which later shaped his career path. this formative stage reflects the dedication of gusev sergey to mastering the core principles of physics and materials science.

Professional endeavors 

After completing his studies, gusev sergey began his career as a trainee researcher at the iap ras. he advanced to the position of junior research associate  demonstrating his growing expertise. later, he became a research associate at iap ras until  briefly continued at ipm ras , he has served as a senior research associate at the magnetic nanostructures department of ipm ras. his long-standing dedication reflects a lifetime commitment to scientific discovery and development, showcasing gusev sergey as a vital contributor to russian physics research.

Contributions and research focus 

The research interests of gusev sergey include analytical electron microscopy, nanotechnology, electronic lithography, and metal nanostructures. his specialization in the physics of magnetic nanostructures has significantly advanced understanding of nanoscale properties and their potential applications. through extensive studies, he has contributed to both practical and theoretical aspects of material science. his ability to combine experimental approaches with modern technological methods has positioned him as a respected figure in the field of nanotechnology.

Impact and influence

Over the decades, gusev sergey has made a notable impact by contributing to the development of nanoscale techniques that influence diverse applications in physics and engineering. his insights into electron microscopy and lithography continue to guide young researchers, offering direction in advanced nanostructure studies. as a senior research associate, he has also been deeply involved in mentoring and socializing newcomers in the academic environment, ensuring that the next generation benefits from his vast experience.

Academic cites

The academic community frequently recognizes the contributions of gusev sergey through citations and references to his work in analytical electron microscopy and nanostructure research. his consistent presence in research discussions highlights his role in advancing experimental physics. the broad acknowledgment of his studies underscores how his work has shaped ongoing academic conversations within the field of nanotechnology.

Legacy and future contributions

Gusev Sergey’s legacy lies in his long-standing association with the institute of applied physics and institute for physics of microstructures of ras. his continuous research on nanostructures ensures a foundation for future advancements in materials and nanoscience. his commitment to mentoring young physicists and supporting academic newcomers reflects his dedication to sustaining knowledge transfer. looking ahead, his expertise in nanotechnology and electron microscopy promises further contributions to global research in magnetic nanostructures.

Publications

Title: Waveguide-Assisted Magneto-Optical Effects in 1D Garnet/Co/Au Plasmonic Crystals
Author(s): Tatiana Murzina, Andrey Dotsenko, Irina Kolmychek, Vladimir Novikov, Nikita Gusev, Ilya Fedotov, Sergei Gusev
Journal: Photonics, 2025

Title: Pinning of domain walls of garnet films by Co/Au gratings
Author(s): I. A. Kolmychek, V. B. Novikov, A. A. Dotsenko, N. S. Gusev, S. A. Gusev, E. V. Skorokhodov, I. A. Fedotov, T. V. Murzina
Journal: Physical Review B, 2025

Title: Magnetic vortex states manipulation in overlapping ferromagnetic disks
Author(s): D. A. Tatarskiy, A. N. Orlova, E. V. Skorokhodov, I. Yu. Pashenkin, V. L. Mironov, S. A. Gusev
Journal: Journal of Magnetism and Magnetic Materials, 2024

Title: Pinning of domain walls in epitaxial garnet film patterned by surface arrays of ferromagnetic metal particles
Author(s): M. P. Temiryazeva, I. A. Kolmychek, A. G. Temiryazev, V. B. Novikov, A. I. Maydykovskiy, N. S. Gusev, E. V. Skorokhodov, S. A. Gusev, S. A. Nikitov, K. S. Napolskii et al.
Journal: Journal of Magnetism and Magnetic Materials, 2024

Title: Gap solitons in nanoscale YIG magnonic crystals
Author(s): Maria A. Morozova, Oleg V. Matveev, Dmitry V. Romanenko, Vera V. Balaeva, Sergey A. Gusev, Nikita S. Gusev, Sergey A. Nikitov
Journal: Physical Review B, 2024

Conclusion 

Gusev Sergey’s lifelong dedication to physics and nanotechnology reflects a profound commitment to advancing scientific knowledge. his research has significantly impacted the study of magnetic nanostructures and electron microscopy, inspiring future generations of scientists. with a legacy built on innovation, mentorship, and rigorous exploration, he continues to shape the field, ensuring that both his contributions and guidance remain influential for years to come.

Assoc. Prof. Dr Mustapha Hidouri – biomaterials – Best Researcher Award

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Assoc. Prof. Dr Mustapha Hidouri - biomaterials - Best Researcher Award

Gabes University - Tunisia

Author Profile 

ORCID 

🧪 Early academic pursuits

Mustapha Hidouri’s academic journey began with a strong foundation in physical sciences, culminating in a bachelor’s degree from the faculty of sciences, monastir university, tunisia, in 1998. his passion for the field led him to pursue advanced studies, earning a higher specified study diploma in 2000, specializing in the chemistry of solids and liquids, with honors. determined to excel, he achieved his doctorate diploma in the same specialty in 2004 through a prestigious collaboration between the faculty of sciences, monastir university, tunisia, and limoges university, france. his early academic pursuits established a robust base for his future endeavors in materials chemistry and related fields.

🌍 Professional endeavors

Dr. Hidouri embarked on his professional career in academia, starting as an assistant at the preparatory institute for engineering studies, university of monastir, tunisia, in 2000. he subsequently held various teaching and research positions across tunisian and international institutions. notable milestones include his tenure as an assistant professor at taibah university, kingdom of saudi arabia, from 2010 to 2016, and his current role as an associate professor at the higher institute of applied sciences and technology, gabes university, tunisia, since 2018. throughout his career, he has exemplified excellence in teaching and mentoring students across disciplines.

🔬 Contributions and research focus

With a focus on materials chemistry and physics, biomaterials in medicine, water and environmental science, energy, biomaterials and mechanics, dr. hidouri’s research has bridged multiple scientific domains. his extensive work in the chemistry of solids and liquids has contributed significantly to advancements in materials chemistry, particularly in understanding and developing sustainable solutions in energy and environmental sciences. his interdisciplinary approach has enriched the fields of biomaterials and mechanics, creating impactful innovations.

🏆 Accolades and recognition

Dr. Hidouri’s dedication to his field has been widely acknowledged through academic honors and institutional responsibilities. his doctoral studies were distinguished with honors, reflecting biomaterials the quality of his research contributions. his roles at esteemed institutions in tunisia and abroad are a testament to his academic and professional excellence. his affiliations with prominent platforms like orcid, researchgate, and google scholar further showcase his standing in the global research community.

🌟 Impact and influence

Through his teaching and research, dr. hidouri has made a lasting impact on students, colleagues, and the broader academic community. his interdisciplinary expertise has inspired innovative biomaterials approaches in addressing critical global challenges in water, environment, and energy sectors. his collaborative research initiatives have fostered a culture of innovation and problem-solving, resonating across academic and industrial landscapes.

🌍 Legacy and future contributions

As a committed researcher and educator, dr. hidouri continues to advance knowledge and mentor the next generation of scientists. his focus on sustainability and interdisciplinary research promises lasting contributions to science and society. his ongoing work in energy solutions and environmental applications will likely address pressing global challenges, solidifying his legacy as a pioneer in his field.

Notable Publications 

  • Structural and Electric Properties of Lanthanide Doped Oxybritholites Materials
    Authors: Meriem Bembli, Ramzi Khiari, Mustapha Hidouri, Khaled Boughzala
    Journal: Chemistry Africa
  • Sintering, Mechanical and Biological Properties of Magnesium-Calcium Fluoro-Hydroxyapatites Containing Zinc Bioceramics for Bone Tissue Engineering
    Authors: Rania Hadj Ali, Zohra Sghaier, Hélène Ageorges, Ezzeddine Ben Salem, Mustapha Hidouri
    Journal: Ceramics International
  • Natural Red Dyes from Beta vulgaris L. Extract for Gamma-Rays Color Indicator: Physico-Chemical and Biological Characterizations
    Authors: Amel Raouafi, Samira Jbahi, Salma Bessalah, Mahmoud Daoudi, Walid Dridi, Ahmed Hichem Hamzaoui, Sergey V. Dorohzkin, Faouzi Hosni, Mustapha Hidouri
    Journal: Journal of the Indian Chemical Society
  • Structural and Electric Properties of Strontium Fluorbritholites Containing Gadolinium and Neodymium
    Authors: K. Kthiri, M. Mehnaoui, K. Boughzala, Mu. Hidouri
    Journal: Applied Physics A
  • Thermal and Structural Properties of Sodium, Potassium and Carbonate Doped Strontium Hydroxyfluorapatite
    Authors: Jihen Ben Slimen, Mohammed Mehnaoui, Samira Jebahi, Khaled Boughzala, Mustapha Hidouri
    Journal: Journal of the Indian Chemical Society

DR. Prashantha S – Advance Materials – Best Researcher Award

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DR. Prashantha S - Advance Materials - Best Researcher Award

Siddaganga Institute of Technology,Tumkur - India

Author Profile 

ORCID 

GOOGLE SCHOLAR

Early academic pursuits 🎓

Prashantha s embarked on his academic journey with a bachelor’s degree in mechanical engineering from b.i.e.t, davanagere, under kuvempu university in 1999. his early inclination towards engineering and design laid the foundation for his future research. he continued to pursue an m.tech in machine design at ubdt college of engineering, davanagere, where he graduated with first-class distinction. his academic achievements culminated in a ph.d. from jntua, anantapur, where he focused on the synthesis and characterization of cu-al-be shape memory alloys. his projects across degrees demonstrated his innovative thinking, especially his m.tech work with isro and b.e project sponsored by kscst bangalore.

Professional endeavors 🏫

Currently serving as an assistant professor in the department of mechanical engineering at siddaganga institute of technology, tumkur, prashantha brings his expertise in mechanical engineering and material science to the classroom and laboratory. with over two decades of teaching and research experience, he has consistently contributed to both the academic and professional development of his students. his professional roles emphasize not only instruction but also mentorship in advanced mechanical concepts.

Contributions and research focus 🔬

Prashantha's research centers around advanced materials, particularly shape memory alloys and smart materials. his ph.d. dissertation on cu-al-be shape memory Advance Materials alloys highlights his expertise in material synthesis and characterization. his work also delves into shape memory composites and the corrosion of materials, areas that are crucial for modern engineering applications. these interests have led him to develop innovative solutions in mechanical engineering, such as his m.tech analysis for satellite solar panels at isro.

Accolades and recognition 🏅

Prashantha's scholarly contributions have earned him recognition in academic circles. his involvement in groundbreaking projects, particularly in collaboration with esteemed organizations like isro, showcases his ability to apply theoretical knowledge to real-world challenges. his dedication to advancing knowledge in shape Advance Materials memory alloys and smart materials reflects his passion for pushing the boundaries of mechanical engineering research.

Impact and influence 🌍

through his teaching and research, prashantha has significantly impacted both academia and industry. his work in shape memory alloys and smart materials addresses critical challenges in material science and mechanical engineering. his research on corrosion and shape memory composites contributes to the Advance Materials development of durable and innovative engineering solutions, directly influencing the future of smart technologies and their applications in various industries.

Legacy and future contributions 🔮

Prashantha’s legacy is one of academic excellence and innovative research. as an expert in shape memory alloys, he continues to contribute to the development of new materials with transformative potential. his work not only advances academic knowledge but also has practical implications for industries like aerospace, automotive, and smart technology. prashantha’s ongoing dedication ensures that his contributions will have a lasting impact on both students and the field of mechanical engineering for years to come.

Notable Publications 

  • Title: Synthesis and Evaluation of Machining Characteristics of Cu-Al-Mn Ternary Shape Memory Alloys Using CNC Wire Electric Discharge Machining
    Authors: Praveen, N., Mallik, U.S., Shivaramu, L., Suresh, R., Prashantha, S.
    Journal: AIP Conference Proceedings, 2020, 2247, 0003846
  • Title: Corrosion Behaviour of Cu-Al-Be Based Shape Memory Alloy with and Without Coating
    Authors: Prashantha, S., Shivasiddaramaiah, A.G., Mallikarjun, U.S.
    Journal: Materials Today: Proceedings, 2019, 17, pp. 147–154
  • Title: Evaluation of Biocompatibility of Cu-Al-Be-Mn Quaternary Shape Memory Alloys Using Antibacterial Test by Agarwell Diffusion Method
    Authors: Shivasiddaramaiah, A.G., Mallik, U.S., Mahato, R., Shivaramu, L., Prashantha, S.
    Journal: Materials Today: Proceedings, 2019, 17, pp. 61–69
  • Title: Synthesis and Evaluation of Fracture Behaviour of Cu-Al-Be-Mn Quaternary Shape Memory Alloy
    Authors: Shivasiddaramaiah, A.G., Mallikarjun, U.S., Jeevan, Prashantha, S.
    Journal: Materials Today: Proceedings, 2018, 5(11), pp. 24457–24465
  • Title: Evaluation of Biocompatibility of Cu-Al-Be-Mn Quaternary Shape Memory Alloy
    Authors: Shivasiddaramaiah, A.G., Mallikarjun, U.S., Praveen, N., Prashantha, S., Anupama, C.
    Journal: Materials Today: Proceedings, 2018, 5(11), pp. 24799–24808