Jean Geringer | Materials Chemistry | Best Researcher Award

Published on by Chemistry Awards

Prof. Dr. Jean Geringer | Materials Chemistry
| Best Researcher Award

Prof. Dr. Jean Geringer | Mines Saint-Etienne | France

Prof. Dr. Jean Geringer is a distinguished expert in biomaterials, tribocorrosion, and materials science with extensive academic and industrial experience. He earned his Ph.D. on fretting corrosion of biomaterials at the École Nationale Supérieure des Mines de Saint-Étienne and later obtained HDR certification in research management, mentoring multiple Ph.D. students and postdocs. He has contributed significantly to the understanding of wear and corrosion mechanisms in orthopedic implants, integrating experimental and theoretical approaches. Currently a professor in biomaterials and tribocorrosion, he has held senior research positions internationally and led entrepreneurial initiatives in implant materials. His work bridges fundamental science and practical applications, demonstrating excellence in innovation, leadership, and interdisciplinary research, making him highly suitable for the Best Researcher Award.

Professional Profile

ORCID | Scopus

Education

Prof. Dr. Jean Geringer academic foundation spans chemistry and materials science. He completed post-secondary preparatory studies in France, followed by a Master’s degree in chemical engineering from the École Nationale Supérieure de Chimie de Toulouse (ENSC-T). He earned a Master’s in materials science at ENSM Saint-Étienne, focusing on biomaterials and contact mechanics. Subsequently, he completed a Ph.D. on fretting corrosion of biomaterials with a French government grant at ENSM Saint-Étienne. Later, he achieved HDR (Habilitation à Diriger des Recherches) at Jean Monnet University, demonstrating research management capability by supervising multiple Ph.D. students and postdoctoral researchers. He also passed competitive national teaching examinations, including Agrégation and CAPES, reflecting a solid blend of scientific knowledge and pedagogical expertise.

Professional Experience

Prof. Dr. Jean Geringer has over two decades of academic and research experience in biomaterials, tribocorrosion, and implant engineering. He served as an assistant professor, later advancing to a full professor at ENSM Saint-Étienne, mentoring Ph.D. students and postdocs. He worked as a senior research fellow at Samara University and led entrepreneurial projects in implant materials. His early career included research assistantships in analytical chemistry and teaching roles across secondary schools, preparatory programs, and university laboratories. He has also held visiting scholar positions in the USA and Europe, enhancing international collaboration. His professional trajectory demonstrates a strong combination of teaching, research, and leadership, with expertise in experimental and theoretical studies of fretting corrosion, wear mechanisms, and implant surface treatments.

Awards 

Prof. Dr. Jean Geringer has received recognition for excellence in research, teaching, and scientific leadership. His HDR certification highlights his capability in supervising Ph.D. and postdoctoral researchers. He has been invited as a visiting scholar at prestigious institutions in the USA and Europe, reflecting international acknowledgment of his expertise. Additionally, he has successfully managed industrial collaborations and entrepreneurial projects in biomaterials for orthopedic implants. His numerous publications in high-impact journals underscore his contributions to the field of tribocorrosion, implant wear, and electrochemical studies. These achievements, combined with his active mentorship and innovation-driven approach, position him as a leading researcher in biomaterials, making him highly suitable for awards recognizing research excellence, leadership, and global impact.

Research Interests 

Prof. Dr. Jean Geringer research focuses on biomaterials, tribocorrosion, and the electrochemical behavior of metallic implants under physiological conditions. He investigates wear and fretting-corrosion mechanisms in orthopedic and dental implants, combining experimental analysis, electrochemical impedance spectroscopy, atomic force microscopy, and theoretical modeling such as the Point Defect Model. His work includes studying protein interactions, surface treatments, polymer-metal interfaces, and the long-term performance of implant materials. He also explores multiscale analysis to enhance implant durability, integrating nanomaterials, coatings, and advanced polymers. The research bridges fundamental understanding with clinical applications, aiming to improve implant longevity and biocompatibility. His innovative and interdisciplinary approach positions him as a thought leader in tribocorrosion and biomaterials science, contributing significantly to healthcare and materials engineering.

Publication Top Notes

  • Zirconia ageing is related to total hip arthroplasty aseptic loosening. A study of 45 retrieved zirconia heads
    Year: 2024

  • Nano/micro implant debris affect osteogenesis by chondrocytes: Comparison between ceramic and UHMWPE from hip walking simulator
    Year: 2022

  • Highly porous Ti as a bone substitute: Triboelectrochemical characterization of highly porous Ti against Ti alloy under fretting-corrosion conditions
    Year: 2021

Conclusion 

Prof. Dr. Jean Geringer  is an exemplary candidate for the Best Researcher Award. His research demonstrates originality, rigor, and tangible contributions to biomedical materials and tribocorrosion science. He combines experimental excellence with mentorship and international experience, producing work that advances both theory and practice. While minor improvements in collaboration, outreach, and computational integration could enhance his impact, his current achievements already reflect leadership, innovation, and influence in his field. Recognition through the Best Researcher Award would be well-justified, honoring both his scientific contributions and the meaningful real-world applications of his research in healthcare and materials engineering.

Mr. Peng Zhang | Materials Chemistry | Best Researcher Award

Published on by Chemistry Awards

Mr. Peng Zhang | Materials Chemistry | Best Researcher Award

Mr. Peng Zhang , Materials Chemistry, College of Mechanical Engineering, Anhui University of Technology, China

Peng Zhang is a dedicated tutor at the College of Mechanical Engineering, Anhui University of Technology. He earned his doctorate in Aerospace Manufacturing Engineering from the prestigious Nanjing University of Aeronautics and Astronautics. His early professional journey includes serving as a technician in a military aircraft assembly plant, which laid the foundation for his hands-on expertise in precision forming technologies. He has led several horizontal and vertical research projects and focuses on high-performance precision forming of light alloys and advanced aluminum-lithium composites. Peng Zhang has published over 10 papers in SCI-indexed journals as a first or corresponding author and holds two invention patents and one software copyright. His commitment to student mentorship is evidenced by his back-to-back recognition as “Excellent Instructor” during the 2022–2024 academic years.

Professional Profile : 

Scopus 

Summary of Suitability for Award:

Mr. Peng Zhang exhibits a compelling research profile that makes him a strong candidate for the “Best Researcher Award”. He holds a Ph.D. in Aerospace Manufacturing Engineering and is currently a tutor and project leader at the College of Mechanical Engineering, Anhui University of Technology. His research focuses on high-performance precision forming of light alloys, particularly Al-Li aerospace alloys, their fatigue behavior, and protective surface coatings. His interdisciplinary research directly contributes to aerospace innovation, industrial efficiency, and materials durability, aligning with key global technological priorities. His blend of practical application, innovation, and mentorship excellence makes him highly suitable for this recognition. Yes, Mr. Peng Zhang is highly suitable for the Best Researcher Award. His impactful, application-driven research in mechanical and aerospace materials, proven leadership in national-level projects, and consistent scholarly output reflect a researcher of high caliber. His achievements demonstrate not only innovation but also real-world relevance, positioning him as an emerging leader in mechanical engineering research.

🎓Education:

Peng Zhang obtained his Doctorate in Aerospace Manufacturing Engineering from Nanjing University of Aeronautics and Astronautics, a leading institution in aerospace innovation in China. His academic training focused on advanced forming technologies, metal processing, and material behavior under extreme conditions, equipping him with deep theoretical insight and practical expertise in mechanical and materials engineering. Prior to his doctoral studies, he completed his undergraduate and master’s degrees in mechanical engineering-related disciplines, building a strong foundation in mechanical design, thermal sciences, and manufacturing techniques. His academic career has emphasized applied research with industry relevance, particularly in the area of metal forming, alloy development, and surface coating technologies. His educational background bridges the gap between academic excellence and industrial application, preparing him to mentor students effectively and conduct high-impact research.

🏢Work Experience:

Peng Zhang began his career as a technician in a military aircraft assembly plant, gaining hands-on exposure to the complexities of aerospace-grade manufacturing. This experience fueled his academic pursuit in aerospace manufacturing, culminating in a doctorate and current role as a tutor and researcher at Anhui University of Technology. He is actively involved in several ongoing and completed research projects related to hot forming, high-cycle fatigue resistance, cryogenic steel processing, and optoelectronic service monitoring systems. As the principal investigator on multiple projects, he has successfully combined theoretical knowledge with practical engineering to improve industrial forming precision and product performance. He brings both technical depth and instructional experience, as demonstrated by his recognition as an “Excellent Instructor” in two consecutive academic years. His work straddles both teaching and research, enriching the academic environment and contributing to industrial advancements.

🏅Awards: 

Peng Zhang has been recognized for his academic and instructional excellence, receiving the “Excellent Instructor” award in the 2022–2023 and 2023–2024 academic years at Anhui University of Technology. These honors reflect his commitment to mentorship, student development, and pedagogical excellence. His research achievements, including more than 10 SCI publications, 2 invention patents, and a software copyright, showcase his innovative contributions to material forming and failure behavior. As a project leader, he has consistently secured funding for advanced research in hot forming technologies, high-precision alloy treatment, and optoelectronic monitoring systems. His awards validate both his teaching capabilities and research leadership, marking him as a rising figure in the mechanical and aerospace materials domain. He is highly regarded by peers and students alike, and his work continues to have a meaningful impact both within the university and in applied engineering industries.

🔬Research Focus:

Peng Zhang’s research focuses on high-performance precision forming of light alloys such as aluminum-lithium (Al-Li) alloys, which are widely used in aerospace applications. He specializes in synchronous quenching hot forming—a novel approach that simultaneously enhances forming accuracy and mechanical performance. His work also delves into the high-cycle fatigue resistance and service failure behavior of advanced alloys, essential for structural integrity in aviation. Additionally, Peng is exploring surface engineering, including superhydrophobic protective coatings for aviation alloys, aiming to improve corrosion resistance and durability. His ongoing projects include studies on cryogenic steel head forming, optoelectronic real-time monitoring systems, and electrically assisted forming technologies, positioning him at the cutting-edge intersection of materials science, mechanical design, and industrial application. Through his integrative research, he contributes significantly to advancements in next-generation manufacturing processes and smart engineering systems.

Publication Top Notes:

1.Title: Effect of the Hot Forming with the Synchronous Quenching Process on Forming Accuracy and Microstructure of the 2A97 Al-Li Alloy
Authors: Peng Zhang, Anqiang Zhu, Yuchuan Lei, Huiting Wang, Benqi Jiao
2.Title: Effect of the Hot Forming with Synchronous Quenching Process on High Cycle Fatigue Properties of the 2A97 Al-Li Alloy
Authors: Peng Zhang, Anqiang Zhu, Huiting Wang, Qifeng Niu, Jiangtao Qi
Citations: 5 (as of May 2025)

Assoc. Prof. Dr. Hexin Zhang | Materials Chemistry | Best Researcher Award

Published on by Chemistry Awards

Assoc. Prof. Dr. Hexin Zhang | Materials Chemistry | Best Researcher Award

Assoc. Prof. Dr. Hexin Zhang , Materials Chemistry ,  Harbin Engineering University, China

Dr. Hexin Zhang is an Associate Professor and Doctoral Supervisor at the School of Materials Science and Chemical Engineering, Harbin Engineering University. She holds a Doctorate in Engineering and has developed a robust academic profile in high-temperature materials and additive manufacturing. With over 60 peer-reviewed SCI-indexed publications and five invention patents, Dr. Zhang’s work significantly contributes to the field of advanced alloys and composite materials. She has successfully led numerous prestigious projects funded by the National Natural Science Foundation of China and other provincial and institutional bodies. As a guest editor for Metals and a senior member of the Chinese Society of Composite Materials, she plays an influential role in shaping research directions. Her ongoing projects involve cutting-edge research in nano-TiC reinforced molybdenum-based superalloys. Her leadership extends to military-grade materials research, and she currently spearheads a multi-million-yuan defense technology initiative with wide application potential in marine gas turbines.

Professional Profile : 

Scopus 

Summary of Suitability for Award:

Dr. Hexin Zhang is an Associate Professor and Doctoral Supervisor at Harbin Engineering University. She holds a Doctorate in Engineering and has extensive expertise in high-temperature composite materials, superalloys, and additive manufacturing—fields of critical importance in advanced materials research.With over 60 SCI-indexed publications, 5 invention patents, and 2 authored monographs, Dr. Zhang has demonstrated consistent and significant contributions to materials science. Her work addresses both fundamental science and industrial application challenges, particularly in marine gas turbines.She serves as Guest Editor for the journal Metals, is a Senior Member of the Chinese Society for Composite Materials, and holds leadership roles in multiple national professional organizations.Dr. Hexin Zhang’s exceptional track record in high-impact research, leadership in national-level projects, patent portfolio, and editorial and professional service make her a standout candidate for the “Best Researcher Award.” Her contributions align well with the award’s objective of honoring researchers who exhibit innovation, leadership, and societal impact through their work.

🎓Education:

Dr. Hexin Zhang pursued her Doctorate in Engineering with a specialization in materials science, focusing on the mechanical behavior and processing of high-temperature alloys. Her academic training emphasized advanced manufacturing techniques including additive manufacturing (AM) and laser-based fabrication technologies. Her graduate work laid the foundation for exploring novel metal matrix composites and developing expertise in microstructural analysis, thermal stability, and mechanical performance enhancement under extreme conditions. She was trained in a multidisciplinary environment, combining theoretical materials science with practical engineering and thermodynamic modeling. As a part of her academic journey, she engaged in collaborative lab work, conference presentations, and published extensively in SCI-indexed journals, honing both technical skills and academic writing. Her formal education and consistent excellence have positioned her as a specialist in nickel-based and molybdenum-based superalloys, enabling her to tackle real-world challenges in aerospace and marine turbine applications.

🏢Work Experience:

Dr. Zhang currently serves as Associate Professor and Doctoral Supervisor at Harbin Engineering University. With extensive experience leading and contributing to key research projects, she has spearheaded over ten major scientific initiatives, including two funded by the National Natural Science Foundation of China and one basic research project targeting the processing of molybdenum-based materials. She has published over 60 high-impact SCI papers, secured 5 national patents, and authored 2 technical monographs. As the principal investigator of a military-focused project supported by the Central Military Commission, she managed a 2-million-yuan segment of a larger 7.5-million-yuan initiative. In addition to her research contributions, she serves as a guest editor for the journal Metals and has held important roles in several academic committees. Her hands-on expertise covers nano-reinforced materials, additive manufacturing, and failure analysis under thermo-mechanical fatigue.

🏅Awards: 

Dr. Hexin Zhang has received multiple accolades for her contributions to materials science and engineering. She has been honored with competitive research grants from the National Natural Science Foundation of China, a testament to her innovative work in the field. She also serves in distinguished capacities including Senior Member of the Chinese Society of Composite Materials and Director of the Ecological Civilization Branch of the China Association of Higher Education. In recognition of her academic leadership and commitment to advancing materials research, she was appointed as a Member of the Materials Gene Engineering Expert Committee of the National Materials and Devices Scientists Think Tank. Additionally, her editorial role for Metals highlights her influence in peer-reviewed publishing. Her work in defense applications of high-temperature materials has further earned her distinction in government and institutional circles.

🔬Research Focus:

Dr. Zhang’s research focuses on the design, processing, and performance of nickel-based and molybdenum-based super alloys, especially for high-temperature and corrosive environments. She specializes in additive manufacturing techniques, particularly laser selective melting and nano-TiC reinforcement, to enhance mechanical strength and thermal resistance. Her investigations include thermo-mechanical fatigue, oxidation resistance, and hot corrosion mechanisms, crucial for the development of next-generation aerospace and marine turbine materials. A highlight of her work is the innovation in laser forming of Mo-based superalloys, solving issues like brittle fracture at room temperature. Her projects, including those funded by the Central Military Commission, involve cutting-edge structural materials aimed at military propulsion systems. Dr. Zhang also integrates computational modeling and experimental validation to understand microstructural evolution and failure modes under extreme conditions.

Publication Top Notes:

1. Impact of Secondary γ’ Precipitate on the High-Temperature Creep Properties of DD6 Alloy

2. Microstructural Evolution and Its Effect on Tensile Properties of 10Cr-2W-3Co Martensitic Steel During Thermal Exposure

3. Microstructure Evolution and Mechanical Properties of Ti-6Al-4V Alloy Fabricated by Directed Energy Deposition Assisted with Dual Ultrasonic Vibration

Citations: 2

4. Effect of Powder Particle Size on the Microscopic Morphology and Mechanical Properties of 316L Stainless Steel Hollow Spheres

5. Study on Hot-Compressive Deformation Behavior and Microstructure Evolution of 12Cr10Co3MoWVNbNB Martensitic Steel

6. Lattice Disorder Driving the Electron Migration from Tetracycline to TiO₂ via Ligand-to-Metal Charge Transfer to Generate Superoxide Radical

Citations: 2

7. Hydrangea-like MnO₂@Sulfur-Doped Porous Carbon Spheres with High Packing Density for High-Performance Supercapacitor

Citations:

8. La Doped-Fe₂(MoO₄)₃ with the Synergistic Effect Between Fe²⁺/Fe³⁺ Cycling and Oxygen Vacancies Enhances the Electrocatalytic Synthesizing NH₃

9. Influence of Aging Heat Treatment on Microstructure and Mechanical Properties of a Novel Polycrystalline Ni₃Al-Based Intermetallic Alloy

Citations:

Dr. Maya Setan Diakité | Materials Chemistry | Best Researcher Award

Published on by Chemistry Awards

Dr. Maya Setan Diakité | Materials Chemistry | Best Researcher Award

Dr. Maya Setan Diakité ,Swedish University of Agricultural Sciences (SLU) , Sweden

Dr. Maya-Sétan Diakité is a French Ph.D. student specializing in plant chemistry, currently researching at UniLaSalle and the University of Artois in France. Her research focuses on the valorization of plant agricultural waste, specifically hemp shiv, for sustainable building materials. Maya has also worked as a postdoctoral researcher at the Swedish Agricultural University, specializing in super-absorbent biomaterials derived from plant waste. Passionate about agro-resources and lignocellulosic biomass, she has been actively involved in scientific outreach and teaching. Dr. Maya-Sétan Diakité is fluent in French, with working proficiency in English, Spanish, and Swedish. Outside of academics, she enjoys music, movies, and taekwondo.

Professional Profile:

Google Scholar  

Summary of Suitability for Award:

Dr. Maya-Sétan Diakité appears to be a strong candidate for the “Best Researcher Awards.” She has demonstrated exceptional research capabilities, particularly in plant chemistry and biomass valorization. Dr. Maya-Sétan is currently a Ph.D. student specializing in the transformation processes of plant materials, with a focus on hemp shiv for building applications. Her academic background, including a Master’s in Biotechnology and extensive postdoctoral research, has equipped her with solid technical expertise in agro-resources, lignocellulosic biomass, and molecular biology. Dr. Maya-Sétan Diakité’s combination of strong academic credentials, impactful research, leadership in scientific outreach, and dedication to sustainable innovation underscores her suitability for the “Best Researcher Awards.” Her work is not only scientifically rigorous but also addresses critical issues in environmental sustainability and resource management, making her a deserving contender for this prestigious recognition.

🎓Education:

Dr. Maya-Sétan Diakité holds a Ph.D. in plant chemistry, pursued at UniLaSalle (Mont-Saint-Aignan, Normandie) and the University of Artois (Béthune, Pas-de-Calais), under the guidance of Dr. Nathalie LeBlanc and Dr. Patrick Martin. She completed her postdoctoral research at the Swedish Agricultural University (SLU), focusing on the valorization of plant agricultural waste into super-absorbent biomaterials. Dr. Dr. Maya also holds a Master 2 in Biotechnology from the University Technologic of Compiègne and a Master 1 in Transformation and Valorization of Natural Resources from the University of Picardie Jules Verne. Her undergraduate studies in Chemistry and Biology were completed at the same institution, where she also studied a year of medicine.

🏢Work Experience:

Dr. Maya-Sétan Diakité has gained extensive research experience in plant chemistry and bioprocessing. As a Ph.D. student, she investigates the influence of transformation process parameters like temperature and pH on plant material, specifically hemp shiv, and its application in sustainable building materials. Her postdoctoral work at the Swedish Agricultural University focuses on the valorization of plant agricultural waste for producing super-absorbent biomaterials. She has developed proficiency in agro-resources, lignocellulosic biomass, and plant biology, working with a variety of techniques such as chromatography, NMR, and mass spectrometry. Additionally, Maya has mentored students and participated in multiple scientific outreach initiatives, including workshops, conferences, and PhD days. Her project management skills are demonstrated through collaborations with institutions like Normandie Aerospace. She has also gained experience in teaching, research communication, and cross-border collaborations.

🏅Awards: 

Dr. Maya-Sétan Diakité has earned recognition for her exceptional academic contributions. Notably, she received the 2nd prize at the Doctoriales Vallée de Seine for her collaborative work with Normandie Aerospace in 2021. She has also been awarded for her outstanding research and innovation in plant chemistry, particularly in the valorization of agricultural waste for sustainable applications. Her involvement in scientific outreach, including her participation in the Normandie final of MT180s 2021, underscores her commitment to promoting research and engaging with a broader audience. Dr. Maya’s work has been honored in numerous conferences, and she has actively contributed to the success of various research projects. Her achievements have solidified her reputation as a promising researcher in the field of plant-based materials and bioeconomy.

🔬Research Focus:

Dr. Maya-Sétan Diakité’s research focuses on the valorization of agro-resources, particularly the conversion of plant agricultural waste into sustainable and functional materials. Her Ph.D. research investigates the transformation processes, such as temperature and pH, that influence hemp shiv, a byproduct of hemp, and its applications in the creation of biobased building materials. She aims to enhance understanding of molecular interactions during processing, which could lead to more sustainable construction methods. As a postdoctoral researcher, Maya explores super-absorbent biomaterials made from plant protein fractionation, contributing to the development of bio-based alternatives to synthetic materials. Her expertise in cell wall composition, plant biology, and experimental design positions her as a key contributor to advancing the bioeconomy, with a particular focus on sustainable materials in construction and other applications.

Publication Top Notes:

  • Cell wall composition of hemp shiv determined by physical and chemical approaches
  • Influence des paramètres de procédés de transformation subis par la matière végétale: focus sur les fonctionnalités apportées par la température et le pH
  • Processing Hemp Shiv Particles for Building Applications: Alkaline Extraction for Concrete and Hot Water Treatment for Binderless Particle Board
  • Extraction des chènevotte de chanvre par simulation des paramètres de formulation-Une application dans le domaine de l’ingénierie du bâtiment
  • Valorisation of hemp in bio-sourced construction materials for sustainable buildings