Faezeh Eskandari | Plasma Nitriding | Best Researcher Award

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Ms. Faezeh Eskandari  | plasma nitriding | Best Researcher Award

PhD candidate at  Isfahan University of Technology, Iran.

F. Eskandari is a highly promising early-career researcher in Materials Engineering with a specialization in surface engineering and tribocorrosion. His academic excellence, focused research on critical materials issues, and respectable publication track record establish him as a suitable candidate for a Best Researcher Award. The research is well-aligned with technological demands in medical implants, corrosion resistance, and wear reduction—areas of significant scientific and industrial interest.

👨‍🎓Profiles

Education :

Faezeh Eskandari is currently pursuing her Ph.D. in Materials Engineering at Isfahan University of Technology, focusing on the tribocorrosion performance of cast Co-Cr-Mo alloys modified by low-temperature plasma nitriding. She holds an M.Sc. in Materials Engineering from the same university, where her thesis explored the effects of friction stir processing on AISI 430 stainless steel, earning a GPA of 18.80/20. Her B.Sc. in Materials Engineering was completed at Bu-Ali Sina University, where she graduated with a GPA of 18.21/20. Her strong academic performance at all levels, along with her practical lab training and research output, highlights her deep understanding of surface engineering and tribology in metallic systems.

Experience :

Faezeh Eskandari has over six years of research and laboratory experience in surface engineering, tribocorrosion, and materials characterization. She has contributed to peer-reviewed publications and presented at national conferences. Her hands-on expertise includes plasma nitriding, metallography, XRD analysis, and wear testing. As a teaching assistant, she supported laboratory sessions in corrosion and X-ray diffraction. Her doctoral research investigates surface modification of CoCrMo biomedical alloys, while her master’s work focused on friction stir processing of stainless steels. With experience using ImageJ, TS View, X’Pert HighScore, and Mendeley, she bridges experimental precision and analytical depth. Her combination of academic rigor and technical proficiency makes her a highly qualified candidate for advanced materials engineering roles and research recognition.

Awards and Honors :

Faezeh Eskandari is a recognized scholar in Iran’s academic community. She is a member of the Iran National Elites Foundation, where she was awarded the prestigious Shahid Vazvaei Award during both her M.Sc. and Ph.D. studies. Academically outstanding, she ranked 1st in her B.Sc. and M.Sc. programs and 3rd in her Ph.D. coursework. These distinctions reflect not only her academic excellence but also her commitment to research and innovation in materials engineering. Her achievements demonstrate sustained performance and promise in advancing surface engineering technologies. These accolades, coupled with her research publications and conference presentations, underline her suitability for the Best Researcher Award and similar recognitions in the scientific and engineering communities.

Research Focus :

Faezeh Eskandari’s research centers on advanced surface engineering techniques for improving material performance in corrosive and wear-intensive environments. Her Ph.D. project investigates tribocorrosion resistance in cast Co-Cr-Mo alloys enhanced by low-temperature plasma nitriding, with a focus on biomedical applications. She integrates micro/nano structural analysis, in-vitro corrosion studies, and bioactivity assessments. Her M.Sc. research explored the effects of friction stir processing on the microstructure, wear, and corrosion behavior of AISI 430 stainless steel. Her work contributes to understanding and enhancing surface integrity, especially for medical-grade and high-performance alloys. Through laboratory and publication achievements, she contributes meaningfully to the field of tribology, corrosion science, and surface modification, aiming to develop durable and biocompatible engineering surfaces.

 

📚 Publications  Top Notes:

  1. Eskandari, F., Ashrafizadeh, F., & Eslami, A. (2025).
    Plasma nitriding of a cast CoCrMo alloy: Induced hybrid micro/nano surface, microstructures, in-vitro corrosion and bioactivity performance.
    Surface and Coatings Technology, 132232.

  2. Eskandari, F., Atapour, M., & Golozar, M. A. (2019).
    Corrosion behavior of friction stir processed AISI 430 ferritic stainless steel.
    Materials Research Express, 6(8), 086532.

  3. Eskandari, F., Atapour, M., Golozar, M. A., Sadeghi, B., & Cavaliere, P. (2019).
    The microstructure and wear behaviour of friction stir processed AISI 430 ferritic stainless steel.
    Tribology – Materials, Surfaces & Interfaces, 13(3), 172–181.

  4. Eskandari, F., Atapour, M., Golozar, M. A., & Abedini, E. (2016).
    Wear behavior of AISI 304 stainless steel after friction stir processing.
    Iranian Journal of Surface Science and Engineering, 12(28), 67–75.

🏁 Conclusion:

With a strong research foundation, impactful publications, and relevant technical skills, the candidate demonstrates excellence in materials science. Continued growth through international exposure, expanded publication reach, and leadership in funded research projects would elevate this strong profile even further.

Ahmed Hassan | Geomorphology | Best Researcher Award

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Assoc. Prof. Dr Ahmed Hassan | Geomorphology | Best Researcher Award

Associate Professor at  Geomorphology and GIS, Matrouh University, Egypt.

Dr. Ahmed Hassan exemplifies a well-rounded researcher with strong academic, applied, and societal contributions in geomorphology and environmental geography. His work is regionally significant, interdisciplinary, and well-funded, especially within the Arab Gulf context. He plays a pivotal role in academic development, environmental research, and science communication.

👨‍🎓Profiles

Education :

Dr. Ahmed Hassan earned a PhD in Physical Geography (Geomorphology) from Ain Shams University, Cairo (2011–2014), and an MSc in Physical Geography from Alexandria University (2005–2009). He also holds a BA in Geography and GIS from Alexandria University (1998–2002) and a Diploma in Remote Sensing and GIS from Ain Shams University (2006), with a “very good” grade. In addition, he has pursued further qualifications in Geomatics, soil and water analysis, and Google Earth Engine. Dr. Hassan has studied English at the British Council in Kuwait, achieving IELTS level 7. His diverse educational background underpins his interdisciplinary research and teaching in geomorphology, GIS, and environmental science, positioning him as a highly qualified academic and researcher.

Experience :

Dr. Ahmed Hassan has over 15 years of experience in academia and applied research. He currently serves as Associate Professor of Geomorphology at Matrouh University since 2019. Previously, he taught geography and social sciences in Kuwait’s Ministry of Education (2007–2019) and held consultancy roles in geomorphology and remote sensing at the International Institute for Environmental Studies (IIES-Kuwait). He has led or contributed to multiple Kuwait University-funded research projects and has organized and spoken at numerous international conferences. He teaches drone mapping courses in Egyptian universities and the Kuwaiti Geographical Society. His leadership extends to editorial and review roles for major international journals. His experience blends scientific research, practical application, and academic excellence across multiple regions.

Awards and Honors :

Dr. Ahmed Hassan has been recognized for both academic excellence and educational impact. He won the prestigious Hamdan Bin Rashid Al Maktoum Award for Distinguished Learning Performance in 2016 as part of a team. He served as Director of Development at the British Royal Academy in Kuwait (2016–2019) and contributed significantly to conferences such as the Kuwait Geographical Society’s “Renewable Energy and Sustainable Development” (2021). As a reviewer/editor for top journals including Scientific African, Springer, MDPI, and Elsevier, he contributes to scientific rigor. His invitations as a keynote speaker in international conferences reflect his growing global recognition. His scholarly and service contributions underline his merit for awards honoring excellence in research and scientific leadership.

Research Focus :

Dr. Ahmed Hassan’s research lies at the intersection of geomorphology, GIS, remote sensing, and environmental planning. He focuses on arid and coastal environments, where he applies geospatial technologies to assess climate change impacts, flash flood risks, coastal erosion, and sustainable urban development. His projects—funded by Kuwait University and other regional institutions—include modeling flood hazards, assessing land use changes, and site suitability for renewable energy. He is a pioneer in integrating drone mapping into environmental monitoring and has contributed significantly to urban anthropogeomorphology. His work combines field data, satellite imagery, and advanced spatial analysis tools like Google Earth Engine and ArcGIS Pro, making him a leader in applied geomorphological and environmental research in the Middle East and beyond.

📚 Publications  Top Notes:

Hassan, A. (2018). The Environmental Geomorphological Assessment of the Urban Expansion in Al-Khiran Marine City, Kuwait. Journal of Social Sciences, Kuwait University, 46(1).

Hassan, A. & Hassaan, M. (2020). Potential Impact of Sea Level Rise on the Geomorphology of Kuwait State Coastline. Arabian Journal of Geosciences, 13, 1139.

Hassan, A., Almatar, M., Torab, M., & Allen, C. (2020). Environmental Urban Plan for Failaka Island, Kuwait: A Study in Urban Geomorphology. Sustainability, 12(17), 7125.

Almatar, M., Ashkanani, A., & Hassan, A. (2020). Investigating Land-Use and Land-Cover Changes of Failaka Island: A Study in Geography and Geoarchaeology. Journal of Social Sciences, Kuwait University, 48(2).

Hassaan, M., Hassan, A., & Al-Dashti, H. (2021). GIS-Based Suitability Analysis for Siting Solar Power Plants in Kuwait. The Egyptian Journal of Remote Sensing and Space Science, 24(3), Part 1.

Abbas, W., Hassan, A., & Ismael, H. (2021). Climate Change Impact on Renewable Energy Resources in The Arab World Based on Jacobson’s Roadmap of Renewable Wind, Water, And Sunlight (WWS) 2050. Geography, Environment, Sustainability, 14(2), 92–104.

Hassan, A., Alfaraj, M., Fayad, M., & Allen, C.D. (2021). Optimizing Site Selection of New Cities in the Desert Using Environmental Geomorphology and GIS: A Case Study of Kuwait. Applied Geomatics.

Hassan, A., Albanai, J.A., & Goudie, A. (2023). Modeling and Managing Flash Flood Hazards in the State of Kuwait: A Hydrogeomorphological Study. In Hydroclimatic Extremes in the Middle East and North Africa, pp. 129–147.

Rashwan, M., Mohamed, L., & Hassan, A. et al. (2024). Landslide Susceptibility Assessment along the Red Sea Coast in Egypt Based on Multi-Criteria Spatial Analysis and GIS Techniques. Scientific African, 23, e02116.

Al-Hurban, A. & Hassan, A. (2024). Environmental Geomorphology of Wadi Al-Batin, Kuwait: Unveiling Natural and Anthropogenic Influences. Kuwait Journal of Science.

🏁 Conclusion:

Dr. Ahmed Hassan is highly suitable for nomination for the Best Researcher Award based on: Strong applied research with societal impact, Demonstrated academic leadership, International visibility and funding achievements, Capacity-building in emerging technologies (e.g., drone mapping, GIS). With continued publication in high-impact venues and more global collaborations, his profile will only grow stronger.

Richard Pinčák | Black holes | Best Researcher Award

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Dr Richard Pinčák | Black holes | Best Researcher Award

Dr at Institute of Experimental Physics, Slovak Academy of Sciences, Slovakia.

Dr. Richard Pinčák is a highly qualified and productive theoretical physicist with Strong national research leadership,A consistent and impactful publication record,Innovative work at the intersection of quantum physics and cosmology.He demonstrates the hallmarks of a dedicated and respected researcher within his field. His career is marked by depth, technical rigor, and high intellectual engagement.

👨‍🎓Profiles

Education :

Dr. Richard Pinčák completed his higher education in physics in Slovakia. He earned his Master’s degree in Physics from the Faculty of Science, P.J. Šafárik University in Košice in May 2000. Continuing his academic pursuits, he obtained the RNDr. degree (Doctor of Natural Sciences) from the Institute of Experimental Physics, Slovak Academy of Sciences, in November 2002. He was later awarded a PhD in March 2004 by the same institute, for his outstanding dissertation on electron transport in photosynthetic reaction centers. His academic training combined rigorous theoretical foundations with a strong research focus, laying the groundwork for his future contributions in the fields of quantum theory, nanotechnology, and biological physics.

Experience :

Dr. Richard Pinčák has over two decades of experience in theoretical and condensed matter physics. He has worked at the Institute of Experimental Physics of the Slovak Academy of Sciences and is actively involved in international collaboration through the Joint Institute for Nuclear Research (JINR) in Dubna, Russia. He has made significant contributions to the understanding of electronic properties in low-dimensional systems, nanostructures, and topological phenomena. His work is deeply interdisciplinary, bridging quantum physics, materials science, and biophysics. Dr. Pinčák has published extensively and presented his research at numerous scientific forums. His academic journey is marked by continuous research innovation, international collaboration, and mentoring of young researchers, reflecting a rich and impactful career in physics.

 

Awards and Honors :

Dr. Richard Pinčák is a highly decorated physicist, with accolades recognizing his excellence from student to professional levels. Among his prestigious awards are the 1st Prizes in the Slovak Physicist Competitions (2001, 2003, 2012), and the 2nd Prize in 2015. His PhD thesis earned distinction via the Václav Votruba Prize jury. Internationally, he received honors such as the Certificate of Ya. A. Smorodinsky and the JINR 1st Prize Certificate. He has also been recognized by the Slovak Academy of Sciences and P.J. Šafárik University for his early contributions. These honors reflect his sustained excellence and innovation in theoretical physics, demonstrating both national leadership and international recognition in scientific research.

Research Focus :

Dr. Richard Pinčák’s research spans theoretical condensed matter physics, quantum information, and nanostructures. He is particularly known for his work on graphene and carbon nanostructures, exploring their electronic, optical, and topological properties. His early work delved into quantum transport in biological systems, particularly electron dynamics in photosynthetic centers. Currently, he focuses on topological defects in curved nanostructures, applications of gauge field theory in condensed matter systems, and quantum computing principles. His interdisciplinary approach links advanced mathematics, physics, and emerging technologies. Dr. Pinčák’s research is published widely in peer-reviewed journals, contributing to both theoretical understanding and practical applications in materials science and nanotechnology.

 

📚 Publications  Top Notes:

 Constructing Superconductors by Graphene Chern–Simons Wormholes

  • Citation: Capozziello, S., & Pinčák, R. (2018). Constructing superconductors by graphene Chern–Simons wormholes. Annals of Physics, 390, 303–318. 

  • Authors: Salvatore Capozziello, Richard Pinčák

  • Year: 2018

Cosmic Acceleration in Non-Flat f(T) Cosmology

  • Citation: Capozziello, S., Luongo, O., Pinčák, R., & Ravanpak, A. (2018). Cosmic acceleration in non-flat f(T) cosmology. General Relativity and Gravitation, 50(5), 53.

  • Authors: Salvatore Capozziello, Orlando Luongo, Richard Pinčák, Arvin Ravanpak

  • Year: 2018

Chern-Simons Current of Left and Right Chiral Superspace in Graphene Wormhole

  • Citation: Capozziello, S., Pinčák, R., & Bartoš, E. (2020). Chern-Simons current of left and right chiral superspace in graphene wormhole. Symmetry, 12(5), 774. 

  • Authors: Salvatore Capozziello, Richard Pinčák, Erik Bartoš

  • Year: 2020

The “Emerging” Reality from “Hidden” Spaces

  • Citation: Pinčák, R., Pigazzini, A., Jafari, S., & Ozel, C. (2021). The “emerging” reality from “hidden” spaces. Universe, 7(3), 75.

  • Authors: Richard Pinčák, Alexander Pigazzini, Saeid Jafari, Cenap Ozel

  • Year: 2021

Current Density and Conductivity Through Modified Gravity in the Graphene with Defects

    • Citation: Sepehri, A., Pinčák, R., Bamba, K., Capozziello, S., & Saridakis, E. N. (2016). Current density and conductivity through modified gravity in the graphene with defects. International Journal of Modern Physics D, 25(11), 1650090. 

    • Authors: Alireza Sepehri, Richard Pinčák, Kazuharu Bamba, Salvatore Capozziello, Emmanuel N. Saridakis

    • Year: 2016

🏁 Conclusion:

Strongly recommended for consideration, especially within theoretical physics and fundamental science domains.
With some enhancement in international visibility and output diversity, his profile could meet even broader excellence criteria.

BASANT LAL | Biomedical | Best Researcher Award

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Dr BASANT LAL | Biomedical | Best Researcher Award

Researcher at National Institute of Technology srinagar, India.  

Dr. Basant Lal is an emerging research leader in nano-composites and tribology with clear applications in biomedical materials. He demonstrates strong technical expertise, an excellent publication track record, and a commitment to impactful, interdisciplinary research. His work is innovative, well-grounded in advanced experimental techniques, and geared toward solving real-world problems in both mechanical and biomedical domains.

👨‍🎓Profiles

Education :

Dr. Basant Lal holds a Ph.D. in Mechanical Engineering from NIT Srinagar (2019–2024), where he focused on the development and tribological behavior of Ti6Al4V/TiC nano-composites for biomedical use. He earned his M.Tech in Mechanical Engineering from NIT Srinagar (2014–2016), specializing in the tribological properties of titanium alloys, mentored by experts from both NIT and IISc Bangalore. His foundational education includes a B.Tech in Mechanical Engineering from MDU University, Haryana (2008–2012), with a project on Anti-lock Braking Systems. Dr. Lal’s educational trajectory reflects a strong emphasis on advanced materials, mechanical behavior, and biomedical engineering applications, making him a well-rounded scholar with both theoretical depth and applied research experience.

Experience :

Dr. Basant Lal has over seven years of combined academic and industrial experience. He is currently a Project Research Scientist at IIT Roorkee (2025–Present), working on spinal cord injury scaffold development. His Ph.D. research at NIT Srinagar (2019–2024) involved nano-composites and their biomedical applications. He previously completed an M.Tech research project at IISc Bangalore on titanium alloy tribology and also worked as a Production Engineer at Talbros Automotive Components Ltd., managing core production processes. His experience spans tribological research, nano-materials, biomaterials, and industrial manufacturing, allowing him to effectively bridge the gap between academic innovation and practical engineering applications.

 

Awards and Honors :

While specific awards are not listed, Dr. Basant Lal’s career includes prestigious academic and research opportunities, such as his role at IIT Roorkee and research collaboration with IISc Bangalore—India’s top institutions. Being supervised and co-supervised by eminent researchers such as Prof. M.F. Wani and Prof. Satish V. Kailas itself is a recognition of his scholarly merit. His work on nano-composites and titanium alloys has been well-received in academic circles, indicating the potential for future awards and accolades. His Ph.D. thesis addresses critical needs in biomedical engineering, and his research has led to conference presentations and probable publications, positioning him well for national and international research honors in the near future.

Research Focus :

Dr. Basant Lal’s research focuses on tribology across scales (nano-micro-macro), nano-composites, and biomedical materials. His Ph.D. explored the development and tribological performance of Ti6Al4V/TiC nano-composites, targeting orthopedic and implant applications. Currently, at IIT Roorkee, he is developing spinal cord injury scaffolds—integrating surface engineering, bio-materials, and interface analysis. His expertise includes spark plasma sintering, mechanical behavior analysis, in-vitro evaluation, and advanced material characterization. Dr. Lal’s interdisciplinary approach combines mechanical engineering fundamentals with cutting-edge biomedical innovation, aiming to enhance the performance, compatibility, and longevity of medical implants and devices. His work is grounded in solving complex engineering problems with tangible societal impact, particularly in healthcare and advanced manufacturing sectors.

 

📚 Publications  Top Notes:

  1. Basant Lal, Abhijit Dey. “Fretting wear characteristics of Ti6Al4V/TiC nano-composites using response surface method.” Tribology International, 2024.

  2. Basant Lal, Abhijit Dey. “Effect of TiC nano-particle on microstructure evolution and tribological behavior of Ti6Al4V composites fabricated via spark plasma sintering.” Tribology International, 2024.

  3. Basant Lal, Abhijit Dey. “Nano-indentation characterization of TiC nano ceramic reinforced Ti-6Al-4V matrix composite.” Journal of Materials Engineering and Performance, 2024.

  4. Basant Lal. “Effect of frictional heating on mechanically mixed layers during dry sliding contact of Ti-6Al-4V alloys at high temperature in vacuum condition.” Surface Review and Letters, 2022

  5. Basant Lal, D. Kumar, M.F. Wani. “Dry sliding wear behavior of Ti–6Al–4V pin against SS316L disc in vacuum condition at high temperature.” Tribology – Materials, Surfaces & Interfaces, 2019.

  6. Basant Lal, Abhijit Dey, M.F. Wani. “Morphology of wear debris during dry sliding of Ti-6Al-4V under vacuum conditions at high temperature.” Surface Review and Letters, 2024.

  7. Basant Lal, Abhijit Dey, M.F. Wani. “Influence of TiCp ceramic reinforcement on Ti6Al4V alloy matrix via spark plasma sintering technique.” Advances in Materials and Processing Technologies, 2024.

  8. Basant Lal, Abhijit Dey, M.F. Wani. “Prediction of surface roughness during dry sliding wear: Characteristics of Ti-6Al-4V alloys.” International Journal of Surface Engineering and Interdisciplinary Materials Science, 2022.

  9. Basant Lal, Abhijit Dey, M.F. Wani. “Influence of temperature and applied load on adhesion and abrasion wear characteristics of Ti6Al4V alloy.” International Journal of Surface Engineering and Interdisciplinary Materials Science, 2022.

  10. Basant Lal, Abhijit Dey, Amit Kumar Dey. “Development of optimum performance model during spark-eroded processing of rheocasted Al6061/Cenosphere MMCs.” Advances in Materials and Processing Technologies, 2025.

  11. A. Das, B. Lal, R. Manjunatha. “Advances in gravimetric electronic nose for biomarkers detection.” Series on Biomechanics, 2022.

  12. Basant Lal, Abhijit Dey, M.F. Wani. “Influence of load and speed on tribological performance of A390 and A515 alloys in dry sliding behavior: A comparative study.” International Journal of Surface Engineering and Interdisciplinary Materials Science, 2022.

  13. Basant Lal, Abhijit Dey. “In-vitro analysis of TC4 alloy reinforced with inert ceramics for biomedical applications synthesized using spark plasma sintering.” Tribology International, 2025.

  14. Basant Lal, Abhijit Dey. “Advancements in titanium nano-composites: Microstructure and fretting wear resistance via spark plasma sintering.” International Journal of Minerals, Metallurgy and Materials, 2025.

🏁 Conclusion:

Dr. Basant Lal is highly suitable for the Best Researcher Award.
He combines scientific rigor, innovation, and interdisciplinary collaboration in a way that exemplifies what this award seeks to honor. Continued growth in international visibility, research leadership, and funding acquisition will further amplify his contributions to the field.