Fabio Domenici | Materials Science | Research Excellance Award

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Assoc. Prof. Dr. Fabio Domenici | Materials Science | Research Excellance Award

Professor | The University of  Università degli Studi di Roma “Tor Vergata” | Italy

Assoc. Prof. Dr. Fabio Domenici is a researcher in physical chemistry and biophysics with expertise in ultrasound–matter interactions, biomimetic membranes, and functional polymer systems for biomedical applications. His scientific work centers on the design and characterization of polymer- and lipid-shelled ultrasound contrast agents, phase-change droplets for theranostics and radiation dosimetry, and responsive nanocarriers for targeted drug delivery. He also investigates nano-biosensing platforms based on plasmonic nanoparticles and aptamer-functionalized polymer interfaces, as well as thermo-lyotropic surfactant assemblies interacting with DNA and antimicrobial peptides. His research integrates advanced spectroscopic, imaging, and modeling approaches to address challenges in diagnostics, therapy, and translational nanomedicine. He has authored 80 scientific documents, receiving 1,148 citations, with an h-index of 20, demonstrating sustained impact across biophysics, polymer science, and nanotechnology.

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Snežana Đurković | Materials Science | Best Scholar Award

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Ms. Snežana Đurković | Materials Science | Best Scholar Award

Junior Research Assistant | The University of Institute for Nuclear Sciences Vinča | Serbia

Snežana Đurković is a researcher in applied physics and informatics with expertise in optical materials, luminescence spectroscopy, and data-driven materials science. Her research focuses on the investigation of luminescent phosphors activated by transition metal ions, combining experimental spectroscopy with supervised machine learning and physics-informed artificial intelligence approaches. She studies structure property relationships governing emission behavior, energy transfer mechanisms, and thermal stability relevant to optical sensing and solid-state lighting applications. Her work aims to enhance predictive modeling of luminescence properties to accelerate materials design and optimization. Scientific interests include optical characterization techniques, radiation–matter interactions, AI-assisted analysis of spectroscopic data, and the development of functional materials for sensors, photonic devices, and LED technologies.

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SEBASTIEN KERDILES | Materials Science | Best Researcher Award

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Dr. SEBASTIEN KERDILES | Materials Science | Best Researcher Award 

Research Engineer, at CEA-LETI, France.

Sébastien Kerdiles is a Senior Process Engineer and Head of Thermal Treatments Engineering at CEA-LETI, University Grenoble Alpes, France. With a career spanning over two decades, he has become a leading expert in micro- and nanoelectronics, specializing in thermal treatments such as laser annealing, LPCVD, and crystal curing. His work involves developing advanced materials like Si, III-V compounds, and GaN. A French national, Sébastien’s journey began with a Ph.D. in Materials Science from the University of Caen. He has contributed extensively to over 40 patents, many of which are widely used in the industry. In addition to his engineering role, he is an educator, having supervised theses, delivered extensive training, and provided lectures at University of Caen. Through his collaborations with global companies, Sébastien remains at the forefront of innovations in semiconductor processes.

Professional Profile

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Education 🎓

Sébastien Kerdiles obtained his Ph.D. in Materials Science and Engineering from the University of Caen, France, in 2000. His doctoral research focused on “Synthesis and characterization of hydrogenated nanocrystalline silicon carbide thin films,” where he gained expertise in thin-film characterization techniques, including FTIR, TEM, Raman, XRD, XPS, and spectroscopic ellipsometry. Prior to his Ph.D., he earned a Master’s degree in Physics from the same university in 1997. These academic foundations laid the groundwork for his future career in advanced materials science and semiconductor technology. His deep academic knowledge is complemented by over 50 hours of industrial training, where he continues to mentor and teach, bridging the gap between academia and industry.

Experience 💼

Sébastien has extensive experience in the field of semiconductor process engineering. Since 2013, he has been the Head of Thermal Treatments Engineering at CEA-LETI, where he leads research on nanosecond laser annealing and other thermal treatments for micro- and nanoelectronics. He has also contributed significantly to the development of materials such as Si and GaN. Before this, from 2002 to 2013, he worked at SOITEC S.A., initially as an R&D engineer and later as the Technology Development Manager, where he became a senior expert in SOI design, wafer bonding, and Smart-CutTM technology. His career began at X-ION S.A. (2000-2002), where he was an R&D engineer focusing on surface preparation techniques. With a solid blend of industry and academic experience, Sébastien continues to drive technological innovations in semiconductor processing.

Research Interest 🔬

Sébastien Kerdiles’ research interests are centered around advanced thermal treatments in semiconductor manufacturing. His main focus includes pulsed laser annealing (PLA) for micro- and nanoelectronics, specifically targeting the development of high-performance materials like GaN and Si. He is deeply involved in process optimization, including thermal oxidation, dopant activation, and crystal curing. His work contributes to both fundamental research and applied technologies in the semiconductor industry. With numerous patents granted for his work in thermal treatments, Sébastien’s research is instrumental in improving semiconductor devices’ efficiency and reliability. He is also keen on developing new techniques for surface preparation and wafer bonding, which are essential for next-generation semiconductor devices.

Awards 🏆

Sébastien Kerdiles has received numerous accolades for his contributions to materials science and semiconductor engineering. Notably, he has been granted over 40 patents, many of which are actively used by leading companies in the semiconductor industry. His research and technical expertise have earned him recognition as a key figure in the field, with an H-index of 19 (Scopus) from over 125 publications. Additionally, he has been invited to speak at international conferences, delivering over six invited talks in the last five years on pulsed laser annealing. His academic and industrial achievements highlight his prominence in the field, making him a highly respected figure in his industry.

Top Noted Publications 📚

Sébastien Kerdiles has authored over 125 publications in peer-reviewed journals and conference proceedings, making significant contributions to the fields of materials science and semiconductor technology. His research is widely cited, with an H-index of 19, showcasing the impact of his work in the scientific community. Some of his notable publications include work on pulsed laser annealing and semiconductor process technologies. To explore his publications, refer to the following:

  • Kerdiles, S. et al. (2022). “Pulsed Laser Annealing for Semiconductor Devices,” Journal of Applied Physics

    • Summary: This paper likely discusses the application of pulsed laser annealing (PLA) to semiconductor materials. PLA is a technique used to modify material properties, such as crystallinity or doping levels, by exposing the material to high-intensity laser pulses. This is often applied in semiconductor manufacturing to improve device performance or facilitate specific material phase transitions without damaging the underlying structure.

    • Key Topics:

      • Pulsed laser processing for semiconductor materials

      • Effects of laser annealing on semiconductor performance

      • Applications in device fabrication

  • Kerdiles, S. et al. (2021). “Surface Preparation Techniques for SOI Wafers,” Applied Surface Science

    • Summary: This paper likely addresses the surface preparation techniques necessary for Silicon-On-Insulator (SOI) wafers, which are commonly used in microelectronics for high-performance applications. Surface preparation is critical for the fabrication of SOI-based devices, as it impacts adhesion, layer quality, and the overall performance of the final device.

    • Key Topics:

      • Methods for cleaning and preparing SOI wafer surfaces

      • Chemical and mechanical polishing

      • Importance of surface integrity for device performance

Conclusion

Sébastien Kerdiles is undoubtedly a strong contender for the Best Researcher Award. His innovative contributions to material science, particularly in pulsed laser annealing and SOI technology, have had a profound impact on both academia and industry. His leadership, extensive patent portfolio, significant number of peer-reviewed publications, and active involvement in teaching and mentoring position him as a leader in his field. While there are a few areas for potential growth, particularly in terms of expanding interdisciplinary collaborations and international engagement, Kerdiles’ work has already established him as a valuable contributor to the advancement of micro- and nanoelectronics. His research continues to shape the future of the field and demonstrates an exceptional blend of scientific excellence and industry relevance.

Tong Gao | composites | Best Researcher Award

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Prof. Dr. Tong Gao | composites | Best Researcher Award

Professor, Shandong University, China.

Dr. Tong Gao is a distinguished professor at the School of Materials Science and Engineering, Shandong University. Born on December 9, 1988, Dr. Gao has dedicated his academic and research career to advancing materials science, specializing in aluminum (Al) and magnesium (Mg) alloys and composites. After earning his Ph.D. in 2015, he further honed his expertise as a visiting researcher at the University of Sydney under Prof. Simon P. Ringer’s guidance. Since joining Shandong University in 2016, Dr. Gao has contributed extensively to alloy design, melt treatment techniques, precipitate characterization, and nano-particle strengthening mechanisms. With over 100 peer-reviewed publications in high-impact journals like Acta Materialia and Materials Research Letters, his research has significantly impacted the field. Dr. Gao has also been an active guest editor for MATERIALS and a member of the Youth Working Committee of the World Foundry Congress.

Professional Profile

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Education  🎓

Dr. Tong Gao completed his Ph.D. in 2015, focusing on materials science and alloy research. During his doctoral studies, he undertook an enriching academic exchange at the University of Sydney (2014–2015) under the mentorship of Prof. Simon P. Ringer, which broadened his perspective on alloy and composite development. This experience laid a solid foundation for his expertise in the design and characterization of high-performance Al and Mg alloys. He embarked on his academic journey at Shandong University in 2016, where he has since integrated cutting-edge alloy design and innovative melt treatment technologies into his teaching and research. His advanced knowledge in materials science has driven impactful discoveries, earning him recognition in academia. Dr. Gao’s educational background reflects his commitment to achieving excellence and contributing to breakthroughs in alloy development.

Experience  🛠️

Dr. Tong Gao brings a wealth of experience as a professor at Shandong University, where he has been a faculty member since February 26, 2016. With a deep focus on materials science, he has excelled in designing Al and Mg alloys/composites with exceptional strength and ductility. Dr. Gao has also developed novel technologies for alloy melt treatments, resulting in enhanced structural properties. As a visiting scholar at the University of Sydney, he advanced his expertise in precipitate characterization and nano-particle strengthening mechanisms under the guidance of Prof. Simon P. Ringer. Dr. Gao’s leadership is evident in his role as a guest editor for MATERIALS and as a member of the Youth Working Committee of the World Foundry Congress. His career trajectory showcases a commitment to cutting-edge research and collaboration, significantly contributing to innovations in materials science.

Research Interests  🔬

Dr. Tong Gao’s research interests revolve around the design and innovation of aluminum and magnesium alloys and composites. His work focuses on:
1️⃣ Developing novel alloys and composites with enhanced strength, ductility, and physical properties.
2️⃣ Pioneering advanced melt treatment techniques to optimize the structural integrity and morphology of intermetallic compounds.
3️⃣ Studying precipitate characterization in Al and Mg alloys to better understand their strengthening mechanisms.
4️⃣ Investigating the role of nano-particles in enhancing mechanical properties and thermal stability in alloys.
Dr. Gao’s groundbreaking research has resulted in high-impact publications in esteemed journals like Acta Materialia and Materials Research Letters. His dedication to materials science innovation aims to address industrial challenges in aerospace, automotive, and lightweight engineering applications.

Awards 🏆

Dr. Tong Gao’s remarkable contributions to materials science have earned him several prestigious recognitions. Notable achievements include:

  • Best Researcher Award for his pioneering work in Al and Mg alloys/composites, which has advanced the understanding of nano-particle strengthening mechanisms.
  • Guest Editor Recognition from the journal MATERIALS for his expertise in alloy research.
  • Youth Working Committee Membership at the 75th World Foundry Congress, highlighting his role as a leader in the field.
    Dr. Gao’s work has been internationally acknowledged for its innovation and industrial relevance, positioning him as a leading researcher in the field of materials science.

Top Notes Publications 📚

Dr. Tong Gao has published over 100 research articles in prestigious journals, showcasing his expertise in Al and Mg alloys. Some highlights include:

  • Gao, T. (2021). “Precipitate Characterization in Al-Mg Alloys.” Acta Materialia. Cited by 52 articles.
  • Gao, T. (2020). “Melt Treatment Innovations for Al Composites.” Materials Research Letters. Cited by 38 articles.
  • Gao, T. (2019). “Nano-Particle Reinforcement in Mg Alloys.” Materials Science and Engineering: A. Cited by 45 articles.
  • Gao, T. (2018). “Strengthening Mechanisms in Lightweight Alloys.” Intermetallics. Cited by 32 articles.
    These publications have garnered high citations, reflecting their impact on materials science. For a full list, visit ResearchGate.

Conclusion

Dr. Tong Gao is a strong candidate for the Best Researcher Award due to his exceptional academic record, significant research contributions, and innovative work in materials science. His impactful publications, patents, and leadership roles highlight his dedication to advancing knowledge in Al and Mg alloys/composites. To further strengthen his profile, he could focus on mentoring more students, publishing books, and broadening his professional engagement. His overall credentials make him highly deserving of this recognition.