Month: April 2025

Education

Tomas Havlik holds a DrSc. in Non-ferrous Metallurgy, awarded in 1997 from the Technical University of Kosice, Slovakia 🇸🇰. His thesis, titled Chalcopyrite Acid Oxidative Leaching and Sulfur Behavior in this Process, laid the foundation for his groundbreaking work in hydrometallurgy 🔬. In the same year, he achieved the rank of Full Professor in Non-ferrous Metallurgy 👨‍🏫. Tomas also holds a CSc. (Ph.D.) in Non-ferrous Metallurgy (1983), where his research focused on The Study of Copper Sulfides Dissolution in Acidic Media. Throughout his education, Tomas specialized in hydrometallurgical processes, X-ray diffraction phase analysis, and physicochemical metallurgy, establishing himself as a leader in metallurgical innovation 🌟.

Work Experience

Tomas Havlik has over four decades of professional experience in non-ferrous metallurgy 🧑‍🏫. Since 1997, he has been a Full Professor at the Technical University of Kosice, where he leads groundbreaking research in waste treatment and sustainable metallurgical processes 🌱. From 1989 to 1997, he served as an Associate Professor, specializing in powder diffraction analysis and metallurgical process optimization 🔬. Earlier, as a Senior Lecturer (1983–1989), Tomas focused on solid-state phase transformations and X-ray diffraction techniques. His international research collaborations include RWTH Aachen , Helsinki University of Technology , and IIT Bombay , reflecting his commitment to advancing global metallurgical practices 🌍.

Award and Honors🏅

Tomas Havlik’s illustrious career is marked by numerous achievements and accolades 🌟. He has authored 1,387 publications, cited 1,684 times, with an H-index of 21 📚. His academic contributions include 5 monographs, 6 textbooks, and 19 patents 🔑. Tomas is a member of prestigious organizations such as TMS, JCPDS-ICDD, and the World List of Crystallographers 🤝. His international fellowships include DAAD (RWTH Aachen) and research appointments in Brazil , Finland , and Germany . Tomas’s work in sustainable metallurgy and waste recycling has earned him recognition as a global leader in his field 🌍.

Research Focus 🔍

Tomas Havlik’s research focuses on sustainable metallurgy and waste treatment ♻️. His expertise lies in hydrometallurgical processing of non-ferrous metals, X-ray diffraction phase analysis, and the physicochemical study of metallurgical processes 🔬. Tomas’s pioneering work on the dissolution and acid oxidative leaching of copper sulfides has advanced the field of hydrometallurgy 💧. Additionally, his studies on solid-state phase transformations and sustainable recycling of industrial and municipal waste have set benchmarks for eco-friendly metallurgical practices 🌱. His research aims to develop innovative solutions that bridge the gap between industrial demands and environmental sustainability 🌍.

Skills🛠

Tomas Havlik is skilled in X-ray diffraction phase analysis, with a focus on in-situ measurements of chemical and metallurgical processes 🔬. He is proficient in qualitative and quantitative powder diffraction, hydrometallurgical process optimization, and sustainable waste treatment ♻️. Tomas is also adept in using software tools such as MATLAB and crystallography applications 💻. His expertise extends to studying physicochemical processes, solid-state transformations, and innovative recycling technologies. As a prolific researcher and educator, Tomas excels in bridging scientific concepts with practical applications in metallurgy 🏭.

Conclusion

Professor Tomas Havlik’s career exemplifies the qualities of an exceptional researcher: intellectual rigor, innovation, and global collaboration. His profound contributions to hydrometallurgy and waste treatment, coupled with his extensive academic output, make him a strong candidate for the Excellence in Research Award. By emphasizing interdisciplinary collaborations and expanding societal outreach, his future work could further solidify his legacy. Tomas Havlik’s accomplishments position him as a beacon of excellence in the field of metallurgical research.

Publications to Noted

A combined pyro-and hydrometallurgical approach to recycle pyrolyzed lithium-ion battery black mass part 2: Lithium recovery from li enriched slag—thermodynamic study, kinetic study, and dry digestion
Metals, 2020
Authors: J. Klimko, D. Oráč, A. Miškufová, B.G. Friedrich, T. Havlík
Citations: 36

A combined pyro-and hydrometallurgical approach to recycle pyrolyzed lithium-ion battery black mass part 1: Production of lithium concentrates in an electric arc furnace
Metals, 2020
Authors: M. Sommerfeld, C. Vonderstein, C. Dertmann, T. Havlík, B.G. Friedrich
Citations: 59

Hydrometallurgical Recycling of Electric Arc Furnace Dust: Application Possibilities of ZnO Product for the Manufacture of Varistors in the Electrotechnical Industry
Waste and Biomass Valorization, 2020
Authors: P. Liptai, B. Dolník, J. Brianĉin, T. Havlík
Citations: 10

The effects of microwave-assisted leaching on the treatment of electric arc furnace dusts (EAFD)
Archives of Metallurgy and Materials, 2020
Authors: M. Laubertova, T. Havlík, Ľ.L. Parilák, B. Derin, J. Trpčevská
Citations: 16

Sustainable development in the tinplate industry: Refining tinplate leachate with cementation
Physicochemical Problems of Mineral Processing, 2020
Authors: J. Klimko, I.U. Kobialkova, J. Pirošková, T. Havlík, D. Klein
Citations: 2

Considering the influence of calcium on EAF dust acid leaching
Physicochemical Problems of Mineral Processing, 2019
Authors: T. Havlík, A. Miškufová, P. Turek, I.U. Kobialkova
Citations: 3

Leaching of yttrium, europium and accompanying elements from phosphor coatings
Hydrometallurgy, 2018
Authors: A. Miškufová, A. Kochmanová, T. Havlík, H. Horváthová, P. Kuruc
Citations: 28

Determination of ZnO amount in electric arc furnace dust and temperature dependence of leaching in ammonium carbonate by using of X-ray diffraction
Archives of Metallurgy and Materials, 2018
Authors: T. Havlík, G. Maruškinová, A. Miškufová
Citations: 12

Izak Cameron | Refractories | Best Researcher Award

Posted on 25/04/202529/04/2025 by sciencefather

Dr. Izak Cameron | Refractories | Best Researcher Award

Scientist at Elkem Public Limited Company, Norway.

Dr. Izak Jian-Pierre Cameron is an esteemed R&D Scientist specializing in refractory materials with a focus on sustainable innovations for the steel and metallurgical industries. Holding a PhD in Materials Science and Metallurgical Engineering from the University of Pretoria, his research explores advanced binder systems for green steel production. Dr. Cameron’s professional journey spans notable contributions at Vesuvius plc., where he developed health-conscious binder solutions, and at Elkem ASA, where he worked on no-cement binder systems to minimize Cr(IV) formation in castables. As a collaborative researcher with industry leaders and academic institutions, he has become a recognized figure in sustainable metallurgy, contributing to safer, more efficient industrial applications.

Professional Profiles

Education

Dr. Cameron holds a PhD in Materials Science and Metallurgical Engineering from the University of Pretoria, South Africa. His doctoral research focused on developing taphole clay binder systems to advance sustainability and green steel production. Prior to his PhD, he completed both his Bachelor’s and Master’s degrees with a specialization in refractories and binder systems. He was awarded membership in the Golden Key Honour Society for his outstanding academic achievements, demonstrating his early commitment to excellence in his field.

Work Experience

Dr. Cameron has extensive experience in industrial and academic research, with notable roles including R&D Scientist at Elkem ASA, where he pioneered no-cement binder systems to reduce Cr(IV) formation in refractory castables. As a Research Engineer at Vesuvius plc., he developed innovative low-polycyclic aromatic hydrocarbon binder solutions, improving workplace safety and sustainability. Additionally, he has served as a collaborative researcher at the University of Pretoria, partnering with Anglo American Platinum on groundbreaking metallurgical projects. His work consistently bridges industry needs with academic insights, advancing sustainable technologies for metallurgical applications.

Award and Honors🏅

Dr. Cameron has received numerous accolades for his contributions to sustainable metallurgy. He was a finalist for the Living the Values™ Award for Courage at Vesuvius plc., recognizing his innovative solutions in refractory engineering. At UNITECR 2023, he secured 2nd Place in the Poster Award competition, highlighting his expertise in sustainable binder systems. His impactful research and dedication to advancing green steel technologies have established him as a leader in the field, earning recognition from both industrial and academic communities.

Research Focus 🔍

Dr. Cameron’s research focuses on the development of eco-friendly binder systems for refractory applications, aiming to replace hazardous materials with sustainable alternatives. His groundbreaking work includes exploring monolithic refractory technologies, green steel production techniques, and chromium substitution systems to reduce environmental and health risks. His innovations have paved the way for safer, greener industrial processes, reinforcing his commitment to advancing sustainable materials engineering.

Conclusion

Dr. Izak Cameron demonstrates exemplary dedication to advancing sustainable solutions in metallurgical engineering. His focus on environmentally friendly alternatives and his strong academic-industrial nexus position him as an outstanding candidate for the Best Researcher Award. With continued efforts in patent development and professional outreach, his contributions could further elevate his impact within the field.

Publications to Noted

Green Binder System for Taphole Clays: A Potential for Glycerine and Phenolic Resin

Journal: Open Ceramics

Year: 2025

Authors: I.J-P. Cameron, A.M. Garbers-Craig

A Novel Binder System for Magnesia Castables to Improve Anti-Hydration Properties and Drying Cycle

Conference: 8th International Conference on Refractories, Jamshedpur

Year: 2024

Authors: Izak Cameron

Comparative Study Between Coal Tar Pitch and Lower Polycyclic Aromatic Hydrocarbon (PAH) Alternative Binders for Use in Taphole Clays

Journal: Open Ceramics

Year: 2023

Authors: I.J.-P. Cameron, S. Ramjee, A.M. Garbers-Craig

Comparative Study Between Coal Tar Pitch and Lower PAH Alternative Binders for Use in Taphole Clays

Conference: UnitecR 2023 – Carbon Challenge

Year: 2023

Authors: Izak Cameron

Understanding How the Binder System Influences the Properties and Process Performance Indicators of Taphole Clays

Conference Poster: UnitecR 2023 – Carbon Challenge

Year: 2023

Authors: Izak Cameron

Evaluating Polycyclic Aromatic Hydrocarbon-Free Binders in Taphole Clays – A Possible Alternative to Coal Tar Pitch

Conference: ECerS XVIII Conference and Exhibition

Year: 2023

Authors: Izak Cameron

Premature Cross-Linking in a Resole Resin and Synthetic Coal Tar Pitch Binder System as Cause of Reduced Workability of a Blast Furnace Taphole Clay

Conference: UnitecR

Year: 2022

Authors: Izak Cameron

Chengbo Gu | Green Materials | Best Researcher Award

Posted on 24/04/202524/04/2025 by sciencefather

Prof. Dr. Chengbo Gu | Green Materials | Best Researcher Award

Doctoral Supervisor at Northeast Forestry University, China.

🌟 Chengbo Gu is a distinguished professor, doctoral supervisor, and vice director at the Engineering Research Center of Forest Bio-Preparation, Ministry of Education, China, based at Northeast Forestry University. With a Ph.D. in Science from China Agricultural University and postdoctoral experience at Zhejiang Hisun Pharmaceutical Co., Ltd., Prof. Gu has been a pioneer in the fields of forest plant resource development, ecological applications, and soil remediation. His contributions include leading over 10 major research projects, publishing 65 SCI-indexed papers, and authoring two monographs. 🌿 His groundbreaking work has been honored with two Heilongjiang Provincial Science and Technology First Prizes and three Liangxi Forestry Science and Technology Awards. As a visiting scholar at the University of California, Davis, he has also contributed to international research collaborations, significantly advancing forestry and environmental science.

Professional Profiles

Education

🎓 Prof. Chengbo Gu completed his bachelor’s degree at China Agricultural University, majoring in biosynthesis and plant resource utilization. He pursued a Ph.D. in Science from the same institution, focusing on plant metabolic regulation and ecological applications. 🌍 Furthering his expertise, he completed postdoctoral research at Zhejiang Hisun Pharmaceutical Co., Ltd., investigating the interactions between medicinal plants and microorganisms. Additionally, his academic journey included a prestigious visiting scholar position at the University of California, Davis, where he collaborated on international research projects. His education has provided a solid foundation for his impactful contributions to science and technology.

Work Experience

💼 Prof. Gu’s career spans academia, research, and industry collaborations. As vice director at the Engineering Research Center of Forest Bio-Preparation, he has spearheaded numerous projects focusing on ecological innovation. He has guided more than 10 research projects, including studies on the effects of endophytic fungi in enhancing soil remediation. 🌱 Prof. Gu has also collaborated with industries like Daxing’anling Chaoyue Wild Berry Development Co., Ltd., contributing to sustainable resource extraction and high-value applications. His role as a reviewer for prestigious journals like Journal of Agricultural and Food Chemistry highlights his expertise in biosynthesis and ecological research.

Award and Honors🏅

🏆 Prof. Chengbo Gu’s exceptional contributions have been recognized with two Heilongjiang Provincial Science and Technology First Prizes and three Liangxi Forestry Science and Technology Awards. His pioneering research on forest plant biosynthesis and remediation technologies has transformed both academic and industrial practices. 🌟 He has also received accolades for his educational impact, mentoring over 40 doctoral and master’s students. His international collaborations and innovative patents further underscore his role as a leader in forestry and ecological sciences.

Research Focus 🔍

🔬 Prof. Gu’s research emphasizes biosynthesis, regulation, and quality control of natural active ingredients in forest plants. His work delves into the growth and metabolic pathways of medicinal plants, environmental remediation, and the ecological applications of secondary metabolites. 🌿 His studies have led to advancements in agriculture, forestry, and medicine, including innovative techniques for the remediation of heavy metal-contaminated soils. His groundbreaking research bridges the gap between science and sustainable development, contributing to global challenges such as soil contamination and industrial sustainability.

Conclusion

Prof. Chengbo Gu exemplifies the qualities of an outstanding researcher, blending innovative scientific inquiry with practical applications in forest bio-preparation and ecological research. His significant contributions to soil remediation, plant resource utilization, and medicinal applications position him as a strong candidate for the Best Researcher Award. By further enhancing international collaborations, broadening the impact of his work, and deepening public engagement, Prof. Gu has the potential to amplify his already impressive contributions to science and society.

Publications to Noted

Potential of pigeon pea [Cajanus cajan (L.) Millsp.] associated with endophytic bacterium Bacillus cereus PEB-9 to remediate cadmium-contaminated soil

Journal: Journal of Hazardous Materials

Year: 2025

Contributors: Xuexia Gao, Binbin Li, Xiaohan Yuan, Yajing Yang, Min Lv, Zhishang Zhu, Jinfeng Song, Chengbo Gu

6PPD-quinone degradation by unactivated peroxymonosulfate via direct oxidation and enhanced generation of 1O2

Journal: Chemical Engineering Journal

Year: 2025

Contributors: Haibin Yu, Nannan Wu, Zhenzhen Liu, Huiyu Zhao, Shanshan Di, Zhiwei Wang, Chengbo Gu, Xinquan Wang, Peipei Qi

Study on the Enantioselective Separation, Dissipation, and Residue of Chiral Fenpropathrin in Vegetables by Supercritical Fluid Chromatography-Tandem Mass Spectrometry (SFC-MS/MS)

Journal: Journal of Agricultural and Food Chemistry

Year: 2024

Contributors: Linnan Wang, Xinquan Wang, Hongyu Liu, Zhiwei Wang, Peipei Qi, Huiyu Zhao, Zhenzhen Liu, Chengbo Gu, Shanshan Di

Fusarium solani G6, a novel vitexin-producing endophytic fungus: characterization, yield improvement and osteoblastic proliferation activity

Journal: Biotechnology Letters

Year: 2021

Contributors: Pei-jia Tang, Zhi-hui Zhang, Li-li Niu, Cheng-bo Gu, Wen-yi Zheng, Hai-chao Cui, Xiao-han Yuan

Characterization, culture medium optimization and antioxidant activity of an endophytic vitexin-producing fungus Dichotomopilus funicola Y3 from pigeon pea [Cajanus cajan (L.) Millsp.]

Journal: Journal of Applied Microbiology

Year: 2018

Contributors: C.B. Gu, H. Ma, W.J. Ning, L.L. Niu, H.Y. Han, X.H. Yuan, Y.J. Fu

Konstantinos Betsis | Machine Learning | Best Researcher Award

Posted on 22/04/202522/04/2025 by sciencefather

Mr. Konstantinos Betsis | Machine Learning | Best Researcher Award

Ph.D Student at National Technical University of Athens, Greece.

📜 Konstantinos Betsis, a Ph.D. student at the National Technical University of Athens (NTUA), is advancing the field of extractive metallurgy. His research focuses on determining the melting point of cryolitic baths in the Hall-Heroult process, utilizing thermal analysis and advanced computational tools. As a teaching assistant, he shares his expertise with undergraduate students in courses like Computational Methods on Metallurgy and Air Pollution Control. Konstantinos is highly skilled in laboratory techniques, programming, and computational simulations. His contributions extend to multiple publications and international conferences, showcasing his dedication to metallurgy and materials science.

Professional Profiles

Education

🎓 Konstantinos holds a Diploma in Mining and Metallurgical Engineering from NTUA, where his undergraduate research focused on the corrosion mechanisms of magnesia refractories in OBM converter slags. He is currently pursuing his Ph.D. at NTUA, with a thesis dedicated to developing a groundbreaking algorithm for determining cryolitic bath melting points using thermal analysis, molecular dynamics simulations, and MATLAB modeling. His academic journey is enriched with participation in international summer schools, conferences, and workshops, such as the THGA Summer School on Resource Efficiency and the RawMat Conference. Proficient in English (C2) and French (B2), Konstantinos complements his academic achievements with advanced certifications in computational tools and thermal analysis.

Work Experience

🛠 Konstantinos has been a teaching assistant at NTUA since 2019, playing a key role in educating undergraduate students in metallurgy and materials engineering. He has delivered lectures and conducted laboratory exercises in courses like Computational Methods, Air Pollution Control, and Pyrometallurgy, focusing on techniques like Thermal Analysis and Oxidized Roasting. Konstantinos has also supervised numerous diploma theses involving HSC Chemistry, FactSage simulations, and molecular dynamics studies. In addition to his teaching contributions, he has been actively involved in research projects on pyrometallurgical and hydrometallurgical processes, publishing his findings in esteemed journals and presenting them at international conferences.

Award and Honors🏅

🏆 Konstantinos has been recognized for his academic and research achievements with a prestigious Ph.D. scholarship from NTUA. He has gained international recognition for his contributions to sustainable resource utilization, as showcased at conferences like RawMat and the THGA Summer School. His active engagement in the Greek Raw Materials Community Dialogue and participation in academic festivals reflect his commitment to promoting science and innovation. Konstantinos has been honored for his research excellence in corrosion of refractories and his groundbreaking work on lunar regolith resource utilization, earning accolades from peers and academic institutions.

Research Focus 🔍

🔬 Konstantinos‘ research focuses on extractive metallurgy, with a primary emphasis on optimizing cryolitic baths used in the Hall-Heroult process for aluminum production. By integrating thermal analysis with advanced computational simulations, he seeks to improve energy efficiency and material performance. His studies also delve into the corrosion mechanisms of refractories and sustainable resource utilization, such as recycling spent batteries and developing innovative processes for lunar regolith. Konstantinos’ interdisciplinary research bridges experimental and theoretical studies, contributing to advancements in metallurgical engineering and sustainable industrial applications.

Skills

💻 Konstantinos possesses advanced skills in computational tools such as HSC Chemistry, FactSage, MATLAB, Python, and molecular dynamics simulations (Lammps). His laboratory expertise includes thermal analysis, materials characterization, and computational fluid dynamics. He is proficient in teaching complex metallurgical concepts through interactive simulations and tools. Multilingual in English (C2) and French (B2), he effectively collaborates in international settings. Konstantinos is also adept in software environments like Windows, Ubuntu, and CP2K MD/QM simulations, showcasing his versatility and technical acumen in metallurgical engineering.

Conclusion

Konstantinos Betsis exemplifies the qualities of a promising researcher, blending innovative problem-solving with academic rigor and teaching dedication. His contributions to the fields of pyrometallurgy, computational metallurgy, and sustainable material utilization align well with the objectives of the Best Researcher Award. Strengthening his industry collaborations and leadership roles could further establish him as a distinguished researcher. With his academic achievements, technical expertise, and global engagement, he is a highly suitable candidate for this award.

Publications to Noted

🌌 In-situ resource utilization: ferrosilicon and SiC production from BP-1 lunar regolith simulant via carbothermal reduction
Authors: M. Samouhos, P. Tsakiridis, M. Iskander, M. Taxiarchou, K. Betsis
Journal: Planetary and Space Science 212, 105414
Citations: 11
Year: 2022

🛠 Corrosion of high purity magnesia refractories from iron-rich slags of ferronickel enrichment in OBM converters
Authors: K. Betsis, A. Kourtis, E. Chatzitheodoridis, A. Xenidis
Journal: Machines. Technologies. Materials. 14 (4), 177-180
Citations: 4
Year: 2020

🧪 Assessment of magnesia refractories corrosion by iron-rich slags
Authors: K. Betsis, A. Kourtis, K. Karalis, A. Xenidis
Journal: Materials Proceedings 5 (1), 135
Citations: 2
Year: 2022

🤖 Comparison of machine-learning models in predicting the liquidus temperature of aluminum cryolitic bath
Authors: K. Betsis, N.E. Karkalos, A. Xenidis
Journal: Materials Chemistry and Physics, 130865
Year: 2025

🏭 Critical Review of the Metallurgical Operation of the Greek Nickel Industry and Perspectives, based on the recent Industrial Experience on Smelting Reduction Process
Authors: C. Zografidis, K. Betsis, A. Xenidis
Journal: Technical Annals 1 (5)
Year: 2024

🔧 Contribution to the Optimization of the Smelting Reduction of Nickeliferous Laterites, Based on the Recent Industrial Experience
Authors: C. Zografidis, K. Betsis
Journal: Materials Proceedings 15 (1), 61
Year: 2023

⚡ Sulphuric Acid Leaching of Spent Nickel Metal Hydride Car Batteries
Authors: E. Polychronopoulou, P. Oustadakis, P. Tsakiridis, K. Betsis, A. Xenidis
Journal: Materials Proceedings 5 (1), 126
Year: 2022

🏗 Synthesis of nano-metakaolin using mechanical activation: effects of various parameters on the activated material properties
Authors: D. Kosmidi, K. Betsis, L. Sakellariou, M. Taxiarchou, E. Badogiannis, S. Makri
Journal: Clay Minerals, 1-35

🤖 Comparative Study on the Performance of Different Machine Learning Models for the Prediction of Aluminum Cryolitic Bath Liquidus Temperature
Authors: K. Betsis, N. Karkalos, A. Xenidis
Journal: Available at SSRN 5104392

Othmane Dardari | Coating materials | Best Researcher Award

Posted on 19/04/202519/04/2025 by sciencefather

Dr. Othmane Dardari | Coating materials | Best Researcher Award

Postdoctoral researcher at Euro-Mediterranean University of Fez, Morocco.

Dr. Othmane Dardari is a Postdoctoral Researcher at Euromed University of Fez, Morocco. With a strong academic foundation and professional dedication, he has emerged as a key contributor to the fields of material chemistry and biopolymer science. Dr. Dardari completed his Ph.D. in Chemistry and Physics of Materials at Hassan II University in Casablanca, where his research centered on innovative and sustainable solutions. His prolific output includes 11 research publications 📚, 2 patents 🏅, and 5 conference communications 🗣️. Beyond his academic achievements, Dr. Dardari is deeply committed to teaching and mentoring 👨‍🏫, fostering the next generation of scientists. His expertise spans advanced materials development and applications in sustainable packaging 🌍, agriculture 🌾, and antimicrobial surfaces 🦠. Through his multidisciplinary work, Dr. Dardari aims to bridge the gap between scientific discovery and practical solutions, shaping a future rooted in innovation and sustainability.

Professional Profiles

Education

Dr. Dardari‘s academic journey is a testament to his dedication to knowledge and innovation. In 2023, he earned his Ph.D. in Chemistry and Physics of Materials from Hassan II University in Casablanca, Morocco 🧪, where he focused on biopolymers and sustainable applications 🌿. Prior to that, he completed a Master’s degree in Engineering and Physics of Advanced Materials in 2019 🛠️ at the same university. His foundational studies include a Bachelor’s degree in Mechanical Engineering in 2017 ⚙️ and a Baccalaureate in Physical Sciences in 2014 🔬, both achieved in Mohammedia, Morocco. This comprehensive academic background has equipped Dr. Dardari with a multidisciplinary perspective, allowing him to seamlessly integrate principles from chemistry, physics, and engineering into his groundbreaking research.

Work Experience

Dr. Dardari’s professional journey highlights his ability to contribute to diverse domains. Since January 2024, he has been a Postdoctoral Researcher at Euromed University of Fez, Morocco 🏫, where he explores cutting-edge materials and their applications. Between 2020 and 2022, he served as a Ph.D. researcher at the VARENA-Center MAScIR in Rabat, Morocco 🔬, contributing to innovative projects in material science. Earlier in his career, he gained hands-on experience during internships, such as at the Laboratory of Materials Catalysis and Valorization of Natural Resources in 2019 🧪 and MCM Industry in 2017 🏭. His work reflects a blend of academic inquiry and practical application, making him a versatile and impactful researcher.

Award and Honors🏅

Dr. Dardari’s work has earned him numerous accolades, including two national patents. In 2024, he was granted a patent (MA. No. 6658) for a process to prepare polysaccharide hydrogels incorporating bioactive substances 🌿, while another patent (MA. No. 61700) was awarded in 2023 for active and intelligent packaging based on biopolymers 📦. His research has been presented at prestigious forums such as the Atlantic Basic Conference on Chemistry (2022) 🌍 and UM6P Doctoral Day (2022) 🧪. These honors recognize his innovative contributions to materials science and his commitment to addressing real-world challenges through research and development.

Research Focus 🔍

Dr. Dardari’s research centers on the development of advanced materials for sustainable applications 🌱, particularly in food packaging 🍱, agriculture 🌾, and environmentally friendly coatings 🌟. His expertise includes the extraction and functionalization of biopolymers like cellulose, chitosan, and carrageenan 🌿. He is proficient in material characterization techniques, including XRD 📊, FTIR 🧪, and UV-Vis 🔬, as well as thermal analysis methods such as DSC 🌡️ and ATG 🌋. His work extends to testing materials for mechanical strength 💪, antibacterial properties 🦠, and antioxidant activity 🧴. By combining fundamental science with innovative applications, Dr. Dardari aims to advance sustainable solutions that contribute to global challenges 🌍.

Conclusion

His research contributions are not only innovative and deeply relevant to current sustainability challenges but are also grounded in practical applications that address critical issues such as food safety, packaging, and the reduction of plastic waste. His success in publishing, patenting, and presenting at significant scientific conferences underscores his commitment to advancing the material sciences. While there are opportunities for Dr. Dardari to increase the public and industry engagement of his work and further diversify his research focus, his achievements to date make him a prominent figure in his field. As he continues to expand his collaborative efforts and scale the real-world applications of his research, Dr. Dardari will undoubtedly continue to be a leader in the development of sustainable material solutions. For these reasons, Dr. Othmane Dardari is a strong contender for the Best Researcher Award.

Publications to Noted

Effect of Sodium Alginate-Based Superabsorbent Hydrogel on Tomato Growth Under Different Water Deficit Conditions

Authors: A. El Idrissi, O. Dardari, F. N. N. N. Metomo, Y. Essamlali, A. Akil, O. Amadine, et al.

Citations: 54

Year: 2023

Recent Advances in Nano-Fertilizers: Synthesis, Crop Yield Impact, and Economic Analysis

Authors: B. E. Channab, A. El Idrissi, A. Ammar, O. Dardari, S. E. Marrane, A. El Gharrak, et al.

Citations: 34

Year: 2024

An Innovative Diatomite-Polypyrrole Composite for Highly Efficient Cr(VI) Removal Through Optimized Adsorption via Surface Response Methodology

Authors: D. Mazkad, A. El Idrissi, S. E. Marrane, N. Lazar, M. El Ouardi, O. Dardari, et al.

Citations: 30

Year: 2024

Urea-Rich Sodium Alginate-Based Hydrogel Fertilizer as a Water Reservoir and Slow-Release N Carrier for Tomato Cultivation Under Different Water-Deficit Levels

Authors: A. El Idrissi, F. Tayi, O. Dardari, Y. Essamlali, I. Jioui, I. Ayouch, A. Akil, et al.

Citations: 21

Year: 2024

Intelligent pH-Sensitive Indicator Based on Chitosan@PVP Containing Extracted Anthocyanin and Reinforced with Sulfur Nanoparticles: Structure, Characteristics, and Application

Authors: O. Dardari, O. Amadine, Y. Essamlali, S. Sair, S. Aboulhrouz, H. Maati, et al.

Citations: 21

Year: 2022

Cellulose Nanocrystal Stabilized Copper Nanoparticles for Grafting Phase Change Materials with High Thermal Conductivity

Authors: O. Dardari, O. Amadine, S. Sair, H. Ait Ousaleh, Y. Essamlali, A. El Idrissi, et al.

Citations: 14

Year: 2024

Polyester Fabric Supported Graphene Oxide/Cu-Ag Bimetallic Nanoparticles as a ‘Dip Catalyst’ for the Reduction of p-Nitrophenol and Organic Dyes

Authors: O. Dardari, A. El Idrissi, M. El Ouardi, B. E. Channab, O. Ait Layachi, S. Farsad, et al.

Citations: 7

Year: 2024

Phosphorylated Lignin as Sustainable Fillers for Polyvinyl Alcohol-Based Composites

Authors: M. A. Benzaouia, O. Dardari, G. Hamdoun, N. Katir, A. El Kadib

Citations: 1

Year: 2024

Development of Temperature-Regulating CR/PVA Bionanocomposite Films with Phase Change Materials and Antibacterial Properties for Ice Cream Packaging

Authors: O. Dardari, O. Amadine, S. Sair, A. El Idrissi, G. R. Benjelloun, H. Ait Ousaleh, et al.

Year: 2025

Strategically Engineered Multifunctional Graphene Oxide Hybrid Nanomaterials for Efficient Catalytic Degradation and Emerging Contaminants Treatment

Authors: G. Achagri, O. Dardari, O. Amadine, A. Kadier, Y. Essamlali, G. R. Benjelloun, et al.

Year: 2024

Mei Zhang | Mechanical Metallurgy | Best Researcher Award

Posted on 15/04/202515/04/2025 by sciencefather

Dr. Mei Zhang | Mechanical Metallurgy | Best Researcher Award

Teacher at Shanghai University, China

👩‍🔬 Dr. Zhang Mei, a distinguished professor and doctoral supervisor at the School of Materials Science and Engineering, Shanghai University, has been a pioneer in strengthening and toughening metal materials, lightweight automotive applications, and engineering materials failure analysis. A graduate of Shanghai Jiaotong University with a bachelor’s degree in Materials Science (1989), she earned her master’s (2000) and doctoral degrees (2007) from Shanghai University. With over 60 research projects under her belt, including the National Key Research and Development Program, she has guided 40+ doctoral and master’s students and authored over 100 papers. Her commitment to advancing materials science has made her a leader in both research and education. 🌟

Professional Profiles

Education

🎓 Dr. Zhang Mei’s academic journey began with a bachelor’s degree in Materials Science from Shanghai Jiaotong University in 1989. She then pursued her master’s degree in 2000 and completed her PhD in Materials Science at Shanghai University in 2007. Her educational focus revolved around the principles of material strengthening, hot-working applications, and lightweight automotive material design. She has also developed comprehensive teaching materials such as “Mechanical Properties of Metals” and “Physical Simulation Technique in Materials and Hot-Working” (2nd Edition), which have become cornerstones for her undergraduate and postgraduate students. Her education laid the foundation for her impactful research and teaching career. 📘

Work Experience

💼 Dr. Zhang Mei has held key roles throughout her career, including leading over 60 research projects and supervising 40+ doctoral and master’s students. She actively integrates teaching and research, focusing on advanced engineering materials and lightweight applications for the automotive industry. She has been instrumental in curriculum development, designing courses like “Metal Mechanical Properties” and “New Forming Technologies for Aluminum Alloys.” Her leadership extends to serving as the Deputy Director of the Physical and Numerical Simulation Committee of the Materials Branch of the Chinese Society for Mechanical Engineering. She remains dedicated to advancing material science education and research. 🏗️

Award and Honors🏅

🏆 Dr. Zhang Mei has been recognized for her outstanding contributions to materials science with numerous accolades. She has received a first prize, a second prize, and a third prize for her scientific and technological achievements at the provincial and ministerial levels. Her textbook “Mechanical Properties of Metals” is widely used, and her undergraduate course “Metal Mechanical Properties” was recognized as a first-class course in Shanghai. She has guided numerous award-winning projects, including her mentorship of a Bronze Award-winning team in the 8th China International “Internet+” Innovation and Entrepreneurship Competition. Her academic excellence and dedication to her field have established her as a leading figure in materials science. ✨

Research Focus 🔍

🔬 Dr. Zhang Mei’s research encompasses a wide range of materials science topics, with a focus on strengthening and toughening metal materials, lightweight applications for vehicles, and engineering material failure analysis. Her work in high-strength automotive steels has significantly advanced manufacturing technologies for lightweight and ultra-durable vehicle components. She has also contributed to understanding hot-working processes and designing sustainable and high-performance materials. Her research aims to bridge the gap between theoretical innovations and industrial applications, enhancing the durability, performance, and sustainability of engineering materials. 🌍

Conclusion

Dr. Zhang Mei’s extensive research, educational contributions, and leadership in materials science make her a strong candidate for the Best Researcher Award. Her groundbreaking work on metal strengthening and automotive materials has advanced both academic and industrial practices. While opportunities for expanding global collaborations and exploring new research frontiers exist, her achievements firmly establish her as a leading figure in her field. Dr. Zhang exemplifies excellence in research, education, and leadership, making her highly deserving of this prestigious recognition.

Publications to Noted

Continuous Heating/Cooling Transformation Kinetics of a Novel CrNiMoV Steel for Large Structural Parts

Journal: Steel Research International

Year: 2023

Authors: Mei Zhang, Bendao Zhang, Yibo Tian, Qiongying Cen, Yang Wang, Weijun Wang, Chundong Hu, Han Dong

Effects of Prestrain and Baking on the Tensile and Fatigue Properties of Fe–0.1C–5Mn Transformation‐Induced Plasticity Steel

Journal: Advanced Engineering Materials

Year: 2023

Authors: Mei Zhang, Bendao Zhang, Yangfei Chen, Qing Xu, Yibo Tian, Zijie Yan, Jin Liu, Han Dong

Thermomechanical Treatment Performance and Flow Stress Model of a Fe–Mn–Al–C Low‐Density Steel

Journal: Steel Research International

Year: 2023

Authors: Weijun Wang, Bendao Zhang, Qiongying Cen, Mei Zhang, Tinghui MAN, Han Dong

Study on Prior Austenite Grain Size and Softening Fraction in Governing Microstructure and Mechanical Behavior of Medium Mn Steel after Intercritical Annealing

Journal: Steel Research International

Year: 2023

Authors: Xiaoyun Sun, Mei Zhang, Xiang Xu, Yong Wei, Lu Pan, Banglun Wang

Influence of Pre-Straining on the Low-Cycle Fatigue Performance of Fe–0.1C–5Mn Medium Manganese Steel

Journal: International Journal of Fatigue

Year: 2022

Authors: Mei Zhang, Weijun Wang, Bendao Zhang, Qiongying Cen, Jin Liu

Plasticity Enhancement Mechanism: Effect of the Annealing Temperature on Strain-Induced Segmented Martensitic Transformations and Portevin–Le Chatelier Bands in 7Mn Steel After Deep Cryogenic Treatment

Journal: Materials Characterization

Year: 2022

Authors: Mei Zhang, Xiaoyun Sun, Bendao Zhang, Qiongying Cen, Han Dong

Influence of Ni Addition on the Microstructure and Mechanical Properties of 3.5Mn Medium-Mn Steel

Journal: Metallurgical and Materials Transactions A

Year: 2022

Authors: Qiongying Cen, Weijun Wang, Bendao Zhang, Zijie Yan, Yang Wang, Mei Zhang

Stefan Wibner | Metal Recycling | Best Researcher Award

Posted on 15/04/202515/04/2025 by sciencefather

Dr. Stefan Wibner | Metal Recycling | Best Researcher Award

Senior Scientist at University of Leoben, Austria

Stefan Robert Wibner is a distinguished Austrian scientist with expertise in metallurgy and non-ferrous materials research. Stefan is a devout Roman Catholic and holds multiple academic titles, including Dipl.-Ing., Dr.mont., and BSc. With a strong passion for innovation, he has dedicated his career to advancing metallurgical processes and technologies. He currently serves as a Senior Scientist at the Chair of Non-Ferrous Metallurgy, Montanuniversität Leoben, contributing significantly to research on aluminum recycling and the behavior of special metals. A committed educator, Stefan also teaches foundry and forming technology, sharing his knowledge and inspiring the next generation of metallurgists. Throughout his academic and professional journey, he has consistently demonstrated excellence, earning widespread recognition for his groundbreaking research and dedication to the field. 🌟📚🔬

Professional Profiles

Education

Stefan began his academic journey at the Montanuniversität Leoben, earning a Bachelor’s degree in Metallurgy in 2015. His thesis focused on “Non-Destructive Testing of Anodized Layers.” Stefan advanced his studies with a Master’s degree in Metallurgy, specializing in non-ferrous and iron-steel metallurgy. His Master’s thesis, titled “Kinetic Investigations on Slag Reduction in Primary Copper Production,” earned him distinction in 2016. He further pursued a doctorate in mining sciences, completing his dissertation on “Behavior of Aluminum-Containing Residues and Low-Quality Aluminum Scrap During Recycling with Consideration of Special Metals” with top honors in 2021. His education journey reflects a relentless pursuit of excellence in metallurgy and advanced material sciences. 🏅🧪📖

Work Experience

Stefan‘s professional career is marked by impactful roles in research and education. Since 2021, he has been a Senior Scientist at Montanuniversität Leoben, focusing on non-ferrous metallurgy. From 2018, he served as a lecturer at HTL Leoben, teaching foundry and forming technology. As a Research Associate at Montanuniversität Leoben (2016–2021), he contributed to transformative projects in aluminum recycling and the study of special metals. He also worked in R&D at Böhler Edelstahl GmbH & Co KG and supported heavy metals recycling optimization as a student assistant. His practical and academic experience underscores his expertise in metallurgical processes and innovative research methodologies. 🛠️📊🔬

Award and Honors🏅

Stefan‘s accolades reflect his outstanding contributions to metallurgy. He received a second prize in the Ministry of Education Technology Progress Award and has been recognized as an exceptional mentor, earning a Bronze Award in the 8th China International “Internet+” 💻 Innovation and Entrepreneurship Competition. His dedication to academic excellence is evident from his distinctions as an outstanding graduate at HTBLuVA Graz-Gösting and his award for the best paper at the 14th National Laser Processing Academic Conference. Stefan’s commitment to innovation and teaching has earned him a reputation as a leader in his field. 🥇🎖️📜

Research Focus 🔍

Stefan’s research focuses on advanced metallurgy, particularly non-ferrous metal recycling and aluminum scrap processing. His doctoral work examined the behavior of aluminum-containing residues during recycling, addressing challenges in handling special metals. He has explored slag reduction kinetics in copper production, innovative recycling techniques, and high-temperature metallurgical processes. His work seeks to enhance sustainability and efficiency in industrial applications, positioning him as a pioneer in metallurgy and material sciences. 🌍🧪🔍

Conclusion

Dr. Stefan Robert Wibner is an outstanding candidate for the Best Researcher Award. His dedication to metallurgy, remarkable academic achievements, and practical expertise establish him as a leader in his field. By focusing on expanding his international influence and diversifying his research endeavors, Dr. Wibner could further solidify his standing as a global expert. His contributions to sustainable metallurgy and education make him highly deserving of this recognition.

Publications to Noted

Title: The catalytic effect of Ni in methane pyrolysis using molten SnNi alloys for hydrogen production
Authors: David Scheiblehner, David Neuschitzer, Stefan Wibner, Helmut Antrekowitsch, Stefan Luidold
Year: 2025

This publication explores the role of nickel as a catalyst in methane pyrolysis using molten SnNi alloys, aiming for efficient hydrogen production. It is featured in the International Journal of Hydrogen Energy.

Zhenlin Zhang | Additive manufacturing | Best Researcher Award

Posted on 12/04/202512/04/2025 by sciencefather

Assoc. Prof. Dr. Zhenlin Zhang | Additive manufacturing | Best Researcher Award

Assistant Researcher at Southwest Jiaotong University, China

🌟 Zhang Zhenlin is a dedicated researcher specializing in advanced materials and laser additive manufacturing. He has achieved notable milestones, including a PhD under the guidance of Prof. Ji-Guo Shan and postdoctoral research with Prof. Hui Chen. Currently an Assistant Researcher at Southwest Jiaotong University, he is deeply committed to innovation in laser-based technologies. Zhang has contributed significantly to national and international projects, authored 11 SCI papers in top-tier journals, and holds multiple patents. His work on high-precision repairs and additive manufacturing for aerospace, defense, and industrial applications showcases his passion for cutting-edge research. Beyond academics, Zhang excels in leadership roles, serving as a guest editor for Coatings and mentoring future engineers. His accolades include prestigious awards in technology and academic competitions.

Professional Profiles

Education

Zhang‘s educational journey began with a Bachelor’s degree in Material Forming and Control Engineering from Northwestern Polytechnical University (2011–2015). He pursued his Ph.D. in Mechanical Engineering at Tsinghua University (2015–2021), focusing on laser processing techniques. During this time, he also ventured abroad, studying at Tohoku University and Osaka University as a visiting scholar. Currently, he is engaged in postdoctoral research at Southwest Jiaotong University, specializing in laser additive manufacturing. 🎓📚

Work Experience

Zhang Zhenlin has a wealth of experience in the field of laser additive manufacturing. Since 2021, he has served as an Assistant Researcher and Postdoctoral Researcher at Southwest Jiaotong University. His research focuses on high-precision laser repair and additive manufacturing, especially for titanium alloys and UAV structures. He has led several significant projects, including national-level research programs. Zhang has also collaborated with global institutions such as Tohoku and Osaka University, gaining insights into international research trends. 🔬🌟

Award and Honors🏅

Zhang has earned numerous accolades throughout his career. He received the Second Prize for Technology Progress from the Ministry of Education and a Bronze Award as an advisor for the 8th China International “Internet+” Innovation and Entrepreneurship Competition. He was also recognized as an Outstanding Communist Party Member at Tsinghua University and received the Best Paper Award at the National Laser Processing Academic Conference. These achievements highlight his dedication to both academic and extracurricular excellence. 🏅🏆

Research Focus 🔍

Zhang Zhenlin’s research is centered around advanced materials and laser additive manufacturing technology. He focuses on improving laser cladding, titanium alloy repair, and the prevention of defects such as solidification cracks. His research includes the development of high-precision laser repair techniques and their application in industries like aerospace. His expertise also covers the evolution of materials during laser processing, contributing to the advancement of manufacturing technologies. 🔬💡

Skills 🏆

Zhang is highly skilled in numerical simulations using ANSYS and ABAQUS, specializing in electromagnetic, thermal, and stress field analysis. He is proficient in CAD, SolidWorks, and other design software for 3D modeling and graphical design. His hands-on expertise includes SEM, EBSD, EPMA, TEM, and residual stress analysis, making him a well-rounded materials scientist. These technical skills, combined with his leadership in research, make him a key contributor to advancements in laser manufacturing technologies. 🖥️🔧

Conclusion

Dr. Zhang Zhenlin is an exceptional researcher whose expertise and contributions position him as a top candidate for the Best Researcher Award. His pioneering research, strong leadership in funded projects, and recognition through awards and publications highlight his ability to make transformative impacts in material science and laser manufacturing. With continued emphasis on international collaboration and commercialization, his work has the potential to achieve even greater heights. Dr. Zhang is highly deserving of this award for his outstanding achievements and future potential.

Publications to Noted

Physical and biological controls on the carbonate chemistry of coral reef waters: effects of metabolism, wave forcing, sea level, and geomorphology
Authors: JL Falter, RJ Lowe, Z Zhang, M McCulloch
Cited by: 166
Year: 2013

The combined influence of hydrodynamic forcing and calcification on the spatial distribution of alkalinity in a coral reef system
Authors: Z Zhang, J Falter, R Lowe, G Ivey
Cited by: 65
Year: 2012

Atmospheric forcing intensifies the effects of regional ocean warming on reef‐scale temperature anomalies during a coral bleaching event
Authors: Z Zhang, J Falter, R Lowe, G Ivey, M McCulloch
Cited by: 51
Year: 2013

A numerical model of wave-and current-driven nutrient uptake by coral reef communities
Authors: Z Zhang, R Lowe, J Falter, G Ivey
Cited by: 40
Year: 2011

Localised hydrodynamics influence vulnerability of coral communities to environmental disturbances
Authors: G Shedrawi, JL Falter, KJ Friedman, RJ Lowe, MS Pratchett, CJ Simpson, et al.
Cited by: 31
Year: 2017

Assessing the drivers of spatial variation in thermal forcing across a nearshore reef system and implications for coral bleaching
Authors: JL Falter, Z Zhang, RJ Lowe, F McGregor, J Keesing, MT McCulloch
Cited by: 23
Year: 2014

Ocean transport pathways to a world heritage fringing coral reef: Ningaloo Reef, Western Australia
Authors: J Xu, RJ Lowe, GN Ivey, NL Jones, Z Zhang
Cited by: 18
Year: 2016

The combined effect of transient wind‐driven upwelling and eddies on vertical nutrient fluxes and phytoplankton dynamics along Ningaloo Reef, Western Australia
Authors: Z Zhang, R Lowe, G Ivey, J Xu, J Falter
Cited by: 14
Year: 2016

Toward a universal mass‐momentum transfer relationship for predicting nutrient uptake and metabolite exchange in benthic reef communities
Authors: JL Falter, RJ Lowe, Z Zhang
Cited by: 12
Year: 2016

Uncovering fine-scale wave-driven transport features in a fringing coral reef system via Lagrangian coherent structures
Authors: M Leclair, R Lowe, Z Zhang, G Ivey, T Peacock
Cited by: 10
Year: 2016

Hongxiao Chi | Steel | Best Researcher Award

Posted on 12/04/202512/04/2025 by sciencefather

Prof. Dr. Hongxiao Chi | Steel | Best Researcher Award

Professor at Central Iron and Steel Research Institute Company Limited, China

Chi Hongxiao, PhD, is a distinguished professor and deputy director of the Tool, Die, and Bearing Steel Research Department at the Iron and Steel Research Institute. As the secretary-general of the Die and Mould Materials Committee of the China Die and Mould Industry Association, he has significantly advanced the field of materials engineering. With decades of expertise, his work spans the development of innovative materials, fundamental research, and production technologies for tool steel, die steel, high-speed steel, and bearing steel. Dr. Chi has spearheaded over 30 national, provincial, and ministerial research projects, contributing to groundbreaking advancements in the field. He holds 10 invention patents, has drafted 6 national and 2 group standards, and has published more than 70 academic papers. Recognized for his excellence, he has earned 7 provincial and ministerial-level awards. His leadership and dedication continue to shape the future of steel research and development. ⚙️✨

Professional Profiles

Scopus

Education

Dr. Chi Hongxiao’s academic foundation in materials science and engineering laid the groundwork for his illustrious career in metallurgy and steel research. He completed his PhD with a focus on the development and optimization of tool and die steel technologies, a field where he has become a global expert. His academic journey fostered expertise in advanced material characterization, alloy design, and steel performance optimization. Throughout his education, Dr. Chi demonstrated a commitment to applying his knowledge to solve industrial challenges, bridging the gap between academic theory and practical application. His scholarly pursuits led to several publications in renowned journals, reflecting his deep understanding of the intersection between material science and industrial applications. His education remains a cornerstone of his career, influencing his innovative approaches to research and development in the steel industry. 🧑‍🔬📘

Work Experience

Dr. Chi Hongxiao has amassed extensive experience as a professor and deputy director at the Iron and Steel Research Institute. Over his career, he has taken the lead in more than 30 scientific research projects at national, provincial, and ministerial levels. His expertise lies in the research and development of tool🛠️, die, and bearing steels, as well as high-speed and specialty steels. Dr. Chi’s work includes production technology🧪 research and the formulation of national and group standards for steel materials. As secretary-general of the Die and Mould Materials Committee of the China Die and Mould Industry Association, he plays a pivotal role in driving industry innovation. He has also contributed significantly to academia, publishing over 70 papers and holding 10 invention patents. His wealth of experience combines cutting-edge research, practical applications, and leadership in advancing materials science. 🔧🛠️

Research Focus 🔍

Dr. Chi Hongxiao’s research focuses on the development of advanced tool🛠️, die, and bearing steel materials, including high-speed steels and specialized alloys. His work integrates fundamental scientific inquiry with practical production technologies to enhance steel performance in industrial applications. Dr. Chi is particularly interested in improving the durability, wear resistance, and strength of steel materials through innovative alloy design and manufacturing techniques. His research also extends to the optimization of production processes to achieve sustainable and cost-effective material development. As a recognized expert, he has drafted national standards and participated in group standards for tool and die steels, reflecting his influence in shaping industry practices. With over 70 academic publications and 10 authorized patents, Dr. Chi’s research bridges the gap between material science and industrial application, addressing real-world challenges and advancing the field of steel research. ⚙️📜

Conclusion

Dr. Chi Hongxiao is a highly deserving candidate for the Best Researcher Award, given his remarkable contributions to the field of materials science, particularly in tool and die steel research. His leadership, innovation, and consistent output of high-quality research make him a standout nominee. By fostering global partnerships and embracing cutting-edge interdisciplinary methodologies, Dr. Chi could further elevate his already significant contributions to the field. His work is a testament to the transformative potential of dedicated research in advancing industrial and scientific progress.

Publications to Noted

The effects of hot isostatic pressing temperature and subsequent heat treatment on the microstructure and tensile properties of laser powder bed fused IN718 nickel-based superalloy
Authors: J. Yin, D. Ma, T. Zeng, X. Li, J. Zhou
Journal: Journal of Alloys and Compounds
Year: 2025

Fracture Mechanism of H13 Steel During Tensile Testing Based on In Situ EBSD
Authors: Y. Li, D. Ma, H. Chi, J. Zhou, J. Cai
Journal: Metals
Year: 2025

Evolution of Microstructure and Mechanical Properties of Ultra-High-Strength Heat-Resistant Bearing Steel During Long-Term Aging at 500 °C
Authors: C. Guo, H. Chi, J. Zhou, D.S. Ma, L. Dong
Journal: Materials
Year: 2025

Evading yield strength-ductility trade-off in 2 GPa stainless steel by high-density precipitation-strengthened lamellar martensite and spectral TRIP effect
Authors: J. Gu, H. Chi, J. Su, D.S. Ma, Z. Xin
Journal: Materials Science and Engineering: A
Year: 2025

Cryogenic Treatment Effect on Microstructure and Tensile Properties of a Low-carbon Martensite Stainless Steel
Authors: Y. Wang, C. Wan, H. Chi
Journal: Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Year: 2025

Effect of tempering time on microstructure and mechanical properties of a low carbon stainless bearing steel
Authors: J. He, Y. Wang, X. Qiu, H. Chi, X.W. Cheng
Journal: Materials Today Communications
Year: 2025
Citations: 1

Effect of nitrogen substituting carbon on high-temperature mechanical properties and wear performance of Cr–Mo–V hot-working die steel
Authors: J. Gu, J. Yin, H. Chi, J. Zhou, D.S. Ma
Journal: Journal of Materials Research and Technology
Year: 2025

A Time-Saving Method for Evaluating the Fatigue Strength of Carburized High-Alloy Steel Containing Carbides
Authors: Z.K. Xu, X. Gu, X. Liu, H. Chi, Z. Zhang
Journal: Advanced Engineering Materials
Year: 2024

Fengyuan Shu | Surface Coating | Best Researcher Award

Posted on 09/04/202509/04/2025 by sciencefather

Dr. Fengyuan Shu | Surface Coating | Best Researcher Award

Associate Professor at Sun Yat-sen University, China

🌟 Fengyuan Shu is an esteemed Associate Professor at Sun Yat-sen University under the prestigious “Hundred Talents Program.” With a Ph.D. in Engineering from Harbin Institute of Technology, he has carved a niche in Advanced Manufacturing, Surface Engineering 🖌️, and Remanufacturing. Prof. Shu holds leadership roles as Vice Chairman of the Remanufacturing Branch, Guangdong Mechanical Engineering Society, and is an active committee member in the Surface Engineering and Remanufacturing Engineering societies under the Chinese Mechanical Engineering Society (CMES). His work has significantly contributed to 3D printing innovations🖨️, specialized welding technologies, and environmental adaptability research, driving advancements in sustainable engineering and high-tech manufacturing. Prof. Shu’s career reflects a unique blend of academic excellence, industrial collaborations, and impactful contributions to the global engineering community🔬📊📈.

Professional Profiles