András Roósz | Materials Science | Best Researcher Award

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András Roósz | Materials Science | Best Researcher Award

 Miskolc University |Hungary

Prof. Dr. András Roósz is a renowned Hungarian materials scientist and a distinguished member of the Hungarian Academy of Sciences (HAS). With a prolific career in physical metallurgy, he has significantly advanced the study of solidification in Al-alloys under terrestrial and space conditions. A professor at the University of Miskolc (MU), he collaborates with both domestic and international institutions, including the Max Planck Institute and the universities of Darmstadt, Cambridge, and Nagaoka. He has supervised 16 PhD students and delivered over 300 scientific lectures. Roósz’s contributions to quantitative metallography, simulation of phase transformations, and phase diagram modeling using ESTPHAD are globally recognized. He has organized eight “Solidification and Gravity” international conferences and authored or edited over 370 publications. His research has attracted around 1500 citations, and he holds a Hirsch index of 20. Prof. Roósz is also a decorated scientist with 15 prestigious Hungarian honors, including the Széchenyi Prize.

Publication Profile

google scholar

Education

Prof. Roósz received comprehensive training in physical metallurgy, solidification, phase transformation, quantitative metallography, and heat treatment. His academic background includes BSc, MSc, and PhD studies in materials science, all completed in Hungary. He has since become an integral part of Hungarian higher education, contributing to undergraduate and postgraduate teaching at the University of Miskolc. His role in PhD education is substantial, having supervised 12 Hungarian and 4 German doctoral candidates. He integrates state-of-the-art computational and experimental techniques into academic curricula, ensuring students gain robust theoretical and hands-on experience. As a visiting scholar, he enhanced his academic insight through residencies at leading institutions such as the University of Cambridge (UK) and Nagaoka University (Japan). His deep knowledge base in solidification and thermodynamics makes him a leading educator and mentor in physical metallurgy, shaping the next generation of materials scientists in Hungary and abroad.

Experience

Prof. Dr. Roósz has dedicated much of his professional career to the Physical Metallurgy Department of Miskolc University, where he is also part of the Joint Materials Science Research Group (MU + HAS). His international collaborations are extensive, including annual research visits  to the Max Planck Institute in Stuttgart and Darmstadt University. As a visiting researcher, he also conducted research at Cambridge University and Nagaoka University. He has made significant contributions to metallurgy education by lecturing extensively and supervising doctoral research. Roósz is also a key organizer and chair of international conferences, including eight Solidification and Gravity (SG) events. His expertise spans simulation methods (CA+VD), melt stirring, and phase diagram modeling (ESTPHAD). Beyond research and teaching, he plays an influential role in the academic community through editorial work, conference leadership, and curriculum development in Hungary’s metallurgical education system.

Honors and Awards

Prof. Roósz has been recognized with 15 prestigious awards for his exceptional scientific and academic contributions. Chief among them is the Széchenyi Prize, Hungary’s highest scientific honor, awarded for groundbreaking research and national impact in physical metallurgy. His accolades reflect a lifetime of commitment to materials science, particularly in solidification phenomena and advanced metallurgical processes. These honors highlight his leadership in both national and international scientific communities, including his instrumental role in organizing and chairing the Solidification and Gravity International Conferences. Additionally, his awards acknowledge his mentorship of PhD students, contributions to scientific publishing, and active participation in Hungarian and European research initiatives. His membership in the Hungarian Academy of Sciences further attests to his elite standing within the scientific community. Roósz’s decorated career is not only a testament to his research excellence but also his unwavering dedication to scientific progress and academic service.

Research Focus

Prof. Roósz’s research focuses on solidification phenomena, particularly the behavior of Al-alloys under microgravity and magnetic stirring conditions. His work has provided crucial insights into how melt flow and gravity affect microstructural formation during solidification. He employs advanced computational models, including the Cellular Automaton + Vector Displacement (CA+VD) method for simulating solid-state phase transformations. His contributions to quantitative metallography and heat treatment analysis have set new standards in materials characterization. Roósz is also recognized for developing and applying the ESTPHAD method to calculate complex phase diagrams, offering a robust thermodynamic approach to multicomponent alloy systems. By integrating theoretical simulations with experimental investigations in both ground-based and space environments, his research supports innovations in materials design and manufacturing. His international collaborations have further expanded the scope and relevance of his findings, positioning him as a global authority in solidification science and physical metallurgy.

Publications

Effect of Microgravity and Magnetic Steering on the Melt Flow and the Microstructure of Solidified Alloys, Kolkata, India: BP International

Physical Metallurgy (in Hungarian)

Editor of 8 volumes of Solidification and Gravity (SG) International Conference Proceedings

Authored over 371 scientific papers in leading international journals, books, and conference proceedings

Sabin Aryal | Materials Science | Best Researcher Award

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Mr. Sabin Aryal | Materials Science | Best Researcher Award

Mr. Sabin Aryal, Amrit Campus, Nepal

Mr. Sabin Aryal is a dedicated researcher and academic with a Master of Science in Chemistry from Amrit Campus, Tribhuvan University, Nepal. With a strong academic foundation, he specializes in developing sustainable materials for energy storage, as evidenced by his M.Sc. thesis on supercapacitors derived from natural sources. Currently serving as a research assistant at Kathmandu Valley School and College, Mr. Aryal has contributed to numerous research articles focusing on activated carbon materials and their applications in renewable energy storage systems.

Education:

Master of Science in Chemistry

Amrit Campus, Tribhuvan University (2020–2022)

CGPA: 3.43/4, Grade: B+

Bachelor of Science in Chemistry

Amrit Campus, Tribhuvan University (2016–2020)

Second Division (59.5%)

Intermediate Education

Kathmandu Bernhardt H.S. School (2014–2016)

First Division (69.2%)

Secondary Education

Mahakali Higher Secondary School (2014)

Distinction (82.5%)

Professional Profile:

ORCID Profile

Professional Experience:

Professionally, Sabin has been serving as a research assistant at Kathmandu Valley School and College, Kalanki, since 2022. His instrumental and software handling skills include expertise with potentiostats, hydrothermal systems, spectrophotometers, and software such as Endnote, Origin Lab, and Chemdraw. His academic achievements include receiving the Best Poster Award at the International Conference on Advanced Functional Materials 2024, Kathmandu.

Sabin has co-authored multiple articles, several of which are published or under review in respected journals, focusing on the electrochemical performance of activated carbon materials for energy storage applications. His participation in conferences and workshops further underscores his active engagement in the scientific community, notably presenting at events like the International Conference on Advanced Functional Materials 2024 and the 12th National Science Day. Sabin’s exceptional academic background, combined with his research acumen and professional experiences, positions him as an emerging contributor to the field of sustainable energy storage technologies.

Research Interests:

Sabin’s primary research interests lie in the development of safe, sustainable energy storage solutions that align with renewable energy integration while minimizing environmental impacts. His M.Sc. thesis explored the super-capacitive performance of activated carbon derived from Prunus persica seed stones, reflecting his expertise in material design and electrochemical energy storage. His B.Sc. project involved synthesizing magnesium-doped hydroxyapatite using eggshells via microwave methods.

 

Publications:

Aryal, K. R. Shrestha, T. Shrestha, H. B. Oli, I. Pathak, R. L. (Swagat) Shrestha, and D. P. Bhattarai. Unveiling the Potential of Activated Carbon Derived from the Seed Stones of Prunus persica as a Negatrode Material for High-Performance Super-Capacitor Applications, Journal of Molecular Structure, (Accepted), doi: https://doi.org/10.1016/j.molstruc.2024.140810.

K. Mishra, S. Aryal, H. B. Oli, T. Shrestha, T. Sapkota, R. L. (Swagat) Shrestha, and D. P. Bhattarai. Enhanced Energy Storage: Electrochemical Performance of Activated Carbon Derived from Acacia catechu Bark by KOH activation, E3S Web Conferences, (Accepted)

P. Bhattarai., S. Aryal, K. R. Shrestha, P. K. Mishra, T. Shrestha, P. L. Homagai, H. B. Oli, and R. L. (Swagat) Shrestha. Study of electrochemical performance of Zanthoxylum armatum seed-derived potassium hydroxide assisted activated carbon as a negatrode material for supercapacitor application, Materials Advances, (Under Review).

P. Bhattarai., S. Aryal, K. R. Shrestha, P. K. Mishra, T. Shrestha, P. L. Homagai, R. L. (Swagat) Shrestha, and H. B. Oli. Exploring Electrochemical Performance of Zanthoxylum armatum Seed-Derived Activated Carbon Using Phosphoric acid (H3PO4) for Sustainable Energy Storage Applications, Carbon Trends, (Under Review)

K. Mishra, S. Aryal, H. B. Oli, T. Shrestha, D. Jha, K. R. Shrestha, R. L. (Swagat) Shrestha, and D. P. Bhattarai. Study of Electrochemical Performance of Activated Carbon Derived from Acacia catechu (Khair) Seeds as Electrode Materials for Energy Harvesting Application, Vietnam Journal of Chemistry, (Revision submitted)

K. Mishra, S. Aryal, H. B. Oli, T. Shrestha, K. R. Shrestha, Md. Al Mamun, R. L. (Swagat) Shrestha, and D. P. Bhattarai. Enhanced Energy Storage: Electrochemical Performance of ZnCl2-Activated Carbon Derived from Acacia catechu Bark, Mongolian Journal of Chemistry, (Revision submitted)

S. Timalsina, H. B. Oli, S. Aryal, K. Panthi, R. L. (Swagat) Shrestha, D. P. Bhattarai. “Removal of Pb (II) from aqueous solution using xanthate modified waste walnut shells” (Under review)

 

Conclusion:

Mr. Sabin Aryal is a highly suitable candidate for the Best Researcher Award, given his outstanding academic record, innovative research in sustainable energy materials, and active participation in the scientific community. His ability to tackle pressing global challenges such as renewable energy storage positions him as a promising young researcher. Addressing areas like publication impact, project leadership, and international collaboration would further solidify his candidacy and enable him to reach even greater heights in his research career.

 

 

 

 

Abderrahim Bouftou | Materials Science | Young Scientist Award

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Dr. Abderrahim Bouftou | Materials Science| Young Scientist Award

Dr. Abderrahim Bouftou, hassan II university, Morocco

Dr. Abderrahim Bouftou is a doctoral researcher at the Laboratory of Materials Engineering for the Environment and Valorization (GeMEV), Faculty of Sciences Aïn Chock, Hassan II University of Casablanca, Morocco. His research is focused on the chemistry of biodegradable polymers, the development of active and intelligent packaging materials, and the extraction of bioactive natural compounds. Dr. Bouftou’s expertise includes structural analysis of biopolymers, the creation of nanocomposites for food applications, the characterization of polymer films, and the valorization of organic waste.

Education:

2021 – Present
PhD Candidate and Researcher in Biopolymer Chemistry

2017 – 2019
Faculty of Sciences and Techniques, Marrakech
Master’s Degree in Organic Chemistry
Specialization: Production and Valorization of Natural Substances and Biopolymers

2016 – 2017
Faculty of Sciences Chouaib Doukkali, El Jadida
Bachelor’s Degree in Fundamental Chemistry

2015 – 2016
Faculty of Sciences Chouaib Doukkali, El Jadida
Diploma of University Studies in General Sciences

2014 – 2015
Oulad Hriz Lgharbia High School

Professional Profile:

Orcid Profile

Google Scholar

 

Professional Experience:

Dr. Bouftou’s academic journey reflects a solid foundation in chemistry, culminating in his ongoing doctoral research in biopolymer chemistry. His Master’s degree from the Faculty of Sciences and Techniques, Marrakech, specialized in the production and valorization of natural substances and biopolymers, laying the groundwork for his innovative work on sustainable materials. His interdisciplinary approach, grounded in both theoretical and practical expertise, makes him a standout in his field.

Doctoral Researcher, Hassan II University of Casablanca (2021 – Present)

Research Interests:

Dr. Bouftou has conducted pioneering research in creating intelligent and active packaging materials, extracting bioactive natural compounds, and characterizing polymer films. His work integrates cutting-edge technology and eco-friendly practices, addressing urgent global issues like food preservation and waste valorization. Notably, his studies on cellulose acetate films and chitosan-based coatings for food applications offer innovative solutions to enhance food packaging sustainability and safety.

Publications:

Bouftou A, Aghmih K, Belfadil D, et al. Novel food preservation strategy using sprayed PVA/chitosan-based coatings activated by macroemulsions of chamomile essential oil adsorbed on activated carbon. International Journal of Biological Macromolecules. Published online November 2024:137829. doi:10.1016/j.ijbiomac.2024.137829

Bouftou, K. Aghmih, F. Lakhdar, N. Abidi, S. Gmouh, S. Majid, Enhancing Cellulose Acetate Film with Green Plasticizers for Improved Performance, Biodegradability, and Migration Study into a Food Simulant, Measurement: Food. (2024) 100180. https://doi.org/10.1016/j.meafoo.2024.100180.

Bouftou, K. Aghmih, D. Belfadil, F. Lakhdar, S. Gmouh, S. Majid, Intelligent and active films with thymol and red cabbage anthocyanin for advanced fish packaging, Food Science and Biotechnology. (2024). https://doi.org/10.1007/s10068-024-01662-5.

Bouftou, K. Aghmih, S. Majid, Elaboration and Characterization of Cellulose Acetate Film with Natural Plasticizer, in: 2024: pp. 639–642. https://doi.org/10.1007/978-3-031-51904-8_142.

Aghmih K, Bouftou A, El Bouchti M, Boukhriss A, Gmouh S, Majid S. Synthesis and application of functionalized ionic liquids-based imidazolium as solvent for cotton fibre cellulose dissolution. Cellulose. 2023;30(3):1467-1481. doi:10.1007/s10570-022-04974-z

Wakrim H, Bouftou A, Aghmih K, et al. Performance evaluation of polymer electrolyte membranes based on hydrogen sulfite ionic liquid for application in direct methanol fuel cell (DMFC). Journal of Ionic Liquids. 2023;3(2):100063. doi:10.1016/j.jil.2023.100063

Conclusion:

Dr. Abderrahim Bouftou is highly suitable for the Research for Young Scientist Award. His cutting-edge contributions to biodegradable polymers, intelligent packaging, and sustainable materials reflect his potential as a rising star in the scientific community. His work aligns with the award’s mission of fostering innovation and addressing global challenges. While he could benefit from broader collaborations and industry engagement, his current achievements firmly establish him as a deserving candidate.This recognition would not only honor his efforts but also encourage further innovation in materials science and sustainability.

 

 

 

SOONMIN HO | Applied chemistry | Research Citation Excellence Award

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Prof Dr. SOONMIN HO | Applied chemistry | Research Citation Excellence Award

Professor at INTI International University, Malaysia

🌦️📚  Professor Dr. Ho Soon Min is a distinguished academic and researcher, currently a permanent Professor at INTI International University since April 2010. Born on May 24, 1977, he holds a Ph.D. in Materials Chemistry and has earned acclaim for his significant contributions to teaching and research. Specializing in materials science, his research focuses on thin film technologies, with notable projects in nickel lead sulfide and Ni3Pb2S2 thin films. His commitment to advancing knowledge is reflected in numerous research grants and key roles in national research projects. Professor Dr. Ho’s work underscores a dedication to materials chemistry, making him a respected figure in academia. Applied chemistry. 🌍

Professional Profiles:

Scopus profile

Orcid profile

Googlescholar profile

Researchgate profile

 

👨‍🎓 Education:

💼  Professor Dr. Ho Soon Min is an accomplished academic and researcher with a permanent position as a Professor at INTI International University, Malaysia, since April 2010. Born on May 24, 1977, he holds a Ph.D. in Materials Chemistry, M.Sc. in Materials Chemistry, and a B.Sc. (Hons) in Chemistry, all from the University Putra Malaysia.  🌍👩‍🔬

📚 Work Experiences:

INTI International University, JlnBBN12/1,BandarBaru Nilai, 71800 NegeriSembilan, Malaysia Associate Professor April 2010 Present LajuCarbon Products Sdn phd, 2003 2006. Applied chemistry

Professor Dr. Ho has undertaken significant research projects in materials science, receiving numerous grants for projects such as the preparation of nickel lead sulfide thin films and the evaluation of power conversion values for Ni3Pb2S2 thin film solar cells. He has also been involved in studying cobalt selenide thin films, chemical bath-deposited nickel sulfide thin films, and investigating the influence of manganese oxide on enhancing electrochemical performance in nanostructured cobalt oxide pseudocapacitor electrodes. His commitment to advancing research and education is evident through his leadership as a Principal Investigator and Co-investigator in various national research projects. Professor Dr. Ho Soon Min’s work underscores his dedication to materials chemistry and applied research, making him a respected figure in academia.

Research Focus:

Dr. S.M. Ho’s research primarily focuses on the electrochemical and chemical deposition of thin films, particularly exploring the properties and applications of compounds like copper tin sulfide (Cu4SnS4). His investigations include cyclic voltammetry studies, exploring the effects of bath temperature, solution concentration, and deposition periods on the characteristics of these films. Dr. Ho’s work extends to the chemical bath deposition of NiSe thin films, showcasing a diverse expertise in materials science. His contributions encompass the optimization of deposition parameters for enhanced performance in applications such as solar cells, emphasizing the practical implications of his research in renewable energy technologies.

Peer Reviewer & Academic Engagements:

Professor Dr. Ho Soon Min, citation metrics and indices from Google Scholar are as follows:

Citations: 2087 (All), 1095 (Since 2019)
h-index: 25 (All), 15 (Since 2019)
i10-index: 80 (All), 35 (Since 2019)

 

Publications (TOP NOTES)

A review of nanostructured thin films for gas sensing and corrosion protection, publication date: 2019.

Semiconductor based nanomaterials for harvesting green hydrogen energy under solar light irradiation,

publication date: 2022.
Overview on Different types of Solar Cells: An Update, publication date: 2023.
.