Valeria Pettarin | Composite Materials Science | Best Researcher Award

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Prof. Dr Valeria Pettarin | Composite Materials Science | Best Researcher Award

Professor – Researcher at Institute of Materials Science and Technology / University of Mar del Plata, Argentina

Valeria Pettarin is an accomplished materials scientist specializing in polymer science and engineering. She has held various prestigious academic and research positions, including serving as the Director of the Materials Engineering Department at the University of Mar del Plata. With a strong background in material mechanics, fracture behavior, and sustainable polymer applications, she has significantly contributed to advancing polymer composites and recycled materials. Her extensive research collaborations span multiple countries, reflecting her international influence in the field.

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Education

Valeria Pettarin obtained her degree in Materials Engineering from the University of Mar del Plata in 1998. She further pursued her passion for materials science by earning a Doctorate in Materials Science from the same university in 2002. Throughout her academic journey, she has engaged in research exchanges at prestigious institutions, enhancing her expertise in polymer mechanics, fracture analysis, and sustainable materials.

Experience

Dr. Pettarin’s professional career is marked by her contributions as an academic and researcher. She began as a doctoral fellow at CONICET and later became a postdoctoral fellow, continuing her research in polymer engineering. She has served as an independent researcher at the National Research Council (CONICET) and as Vice-Director of the Polymer Science and Engineering Group at INTEMA. Additionally, she has held visiting professorships at multiple institutions, furthering international collaboration in materials science research.

Research Interests

Her research interests lie in the mechanical, fracture, and impact performance of polymers and their composites, particularly emphasizing the microstructural effects induced by processing techniques. She is also dedicated to sustainable polymer applications, including recycling massively used polymer-based packaging and optimizing polymer composites for enhanced performance. Her work integrates experimental mechanics, material characterization, and innovative polymer processing techniques.

Awards

Dr. Pettarin has received multiple accolades for her contributions to materials science and engineering. She has been recognized for her excellence in polymer research and her commitment to sustainable material development. Her work has been instrumental in bridging academia and industry, leading to technological advancements and industrial collaborations in polymer composites.

Publications

Pettarin, V., Frontini, P.M., Eliçabe, G. (2004). “Inverse Analysis of Impact Test Data: Experimental Study on Polymeric Materials Displaying Brittle Behavior.” Mechanics of Time-Dependent Materials, 8(3), 269-288. Cited by 50+ articles.

Pettarin, V., Fasce, L.A., Frontini, P.M. (2003). “Evaluation of Impact Fracture Toughness of Polymeric Materials by Means of the J-integral Approach.” Polymer Engineering & Science, 43(5), 1081-1095. Cited by 100+ articles.

Pettarin, V., Costantino, A., Rosales, C. (2020). “Polypropylene Blends and Composites: Processing-Morphology-Performance Relationship of Injected Pieces.” IntechOpen. Cited by 30+ articles.

Pettarin, V., Rosales, C., Aït Hocine, N. (2023). “Toughness Improvement of LLDPE/PP Blend by Incorporation of GTR Waste.” Polymer Bulletin. Cited by 20+ articles.

Pettarin, V., Morales, F., Campos, G. (2024). “On the Challenge of Recycling Massively Used Polymer-Based Packaging.” CRC Press. Cited by 15+ articles.

Pettarin, V., Ramirez, C., Agaliotis, E. (2024). “Fracture Toughness and Overall Characterization of PLA-Based Biocomposites with Natural Fibers.” Polymer, 307, 127309. Cited by 10+ articles.

Pettarin, V., Campos, G., Sáiz, L. (2024). “Self-Healing Recyclable Polymers Based on Azobenzenes with Thermoset-like Behavior.” Polymer, 290, 126560. Cited by 12+ articles.

Conclusion

Dr. Valeria Pettarin’s exceptional contributions to materials science, leadership in academia, commitment to sustainability, and impact on global research make her an ideal candidate for the Best Researcher Award. Her work not only advances scientific knowledge but also fosters innovation and environmental responsibility in engineering.

Weiqiang Yang | Composite Materials Science | Best Scholar Award

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Dr. Weiqiang Yang | Composite Materials Science | Best Scholar Award

Doctorate at Liaoning Technical University, China

Profile:

🌟Current Position

Weiqiang Yang serves as a dedicated Lecturer at the School of Materials Science and Engineering, Liaoning Technical University. Since joining in 2021, he has been actively contributing as a key teacher in the prestigious Key Laboratory of Mineral High Value and Energy Storage Materials in Liaoning Province, driving innovation in sustainable energy solutions. His work reflects his commitment to advancing the field of materials science with cutting-edge research and academic excellence.

📝 Publication Achievements

Weiqiang Yang’s prolific research career is marked by notable contributions to high-impact journals such as Advanced Optical Materials, Chemical Engineering Journal, and Green Chemistry. These publications demonstrate his expertise in perovskite materials and their applications, including:

The development of the most stable perovskite material, overcoming challenges in structural stability and efficiency.

Designing the first perovskite solar cell tailored for high-altitude areas, addressing environmental constraints and opening new avenues for renewable energy utilization. His papers are widely cited, underscoring his influence in the field.

🔬 Ongoing Research

Stability and Efficiency Optimization: Exploring innovative methods to enhance material longevity under varying conditions.

High-Altitude Solar Cells: Further refining designs to maximize performance in challenging climates.

Green Synthesis Techniques: Developing environmentally friendly approaches for material preparation, ensuring sustainability.

🧪 Research Interests

Perovskite materials: Aiming to revolutionize energy storage and solar technologies.

Energy-efficient materials: Addressing global energy needs through sustainable solutions.

Nanotechnology: Harnessing the power of nanoscale materials to innovate in the fields of optics and energy.

🎓 Academic Background

Dr. Yang earned his doctoral degree in Physics from Northeast Normal University in 2020, where his thesis laid the groundwork for his pioneering work on perovskite materials. He later joined Liaoning Technical University in 2021, where he quickly became an integral member of its research community.

🏆 Scholarships and Awards

Research Grants: Supporting his groundbreaking work in materials science.

Academic Honors: Acknowledging his innovative contributions to renewable energy technologies.

💻 Bioinformatics and Data Analysis

While his primary focus is on materials science, Yang integrates bioinformatics-inspired computational models to simulate material behaviors and optimize designs for practical applications.

🌐 Professional Associations

Dr. Yang actively collaborates with leading organizations in materials science and renewable energy, fostering interdisciplinary connections and staying at the forefront of emerging trends.

📚 Training & Workshops

  • Advanced Materials Synthesis
  • Sustainable Energy Solutions
  • Nanotechnology Applications

🗣 Oral Presentations

Dr. Yang has delivered impactful presentations at national and international conferences,

  • Enhancing the stability of perovskite solar cells.
  • Innovations in green material synthesis.

🛠 Tasks Completed as a Researcher

Successfully developing perovskite solar cells for extreme environmental conditions.

Pioneering cost-effective and sustainable manufacturing processes for energy storage materials.

🚀 Success Factors

Innovative Mindset: Always exploring uncharted territories in materials science.

Collaborative Spirit: Building strong partnerships to advance research.

Commitment to Sustainability: Balancing technological advancement with environmental responsibility.

🔬Laboratory Experience

Synthesized stable perovskite materials, a critical breakthrough in energy technology.

Conducted in-depth analysis of material properties to enhance solar cell efficiency.

Developed prototypes for high-altitude applications, achieving real-world impact.

📖Publication:

Paper Title: Design and simulation of strong cesium copper–bismuth chloride double perovskite solar cells with an efficiency exceeding 25% for plateau areas

  • Authors: Weiqiang Yang; Yan Jin; Wenjun Li; Jiku Wang; Jinlong Zha
  • Journal: Energy Conversion and Management
  • Year: 2025

 

 

Yufeng Xing | Composite Materials Science | Best Researcher Award

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Prof Dr. Yufeng Xing | Composite Materials Science | Best Researcher Award

Professor at Shenzhen Traditional Chinese Medicine Hospital, China

Profile:

Current Position🏥

Professor Yufeng Xing, M.D., is a prominent figure in the field of liver disease research, holding several key roles in prestigious medical institutions. He serves as the Director of the Department of Liver Disease at the Shenzhen Traditional Chinese Medicine (TCM) Hospital. Additionally, he leads the National Key Specialized and Key Discipline Research Office of Hepatology of TCM. His influence extends further as the Deputy Director of the South China Center for TCM Liver Disease Diagnosis and Treatment under the State Administration of TCM. His academic affiliations include his role as the head of the Institute of Liver Disease at the Fourth Clinical College of Guangzhou University of TCM.

In recognition of his expertise, Professor Xing has been named a Guangdong Outstanding Young Medical Talent, a Shenzhen Chinese Medicine Leading Talent, and a Shenzhen High-Level Talent. Moreover, he is part of the Shenzhen Health Committee Elite Talent Program as a subject leader for training, showcasing his growing influence in medical education and research.

Publication Achievements📚

Professor Xing has an extensive body of work, with over 40 academic papers published, including 15 SCI-indexed papers. His research has made a significant impact in the field of liver diseases, particularly with his studies focusing on viral hepatitis, metabolic-associated fatty liver disease (MAFLD), cirrhosis, and liver cancer. His collaborative and individual contributions have resulted in eight national and provincial science and technology achievement awards and the authorship of three monographs. These publications have garnered recognition from both domestic and international communities, further solidifying his reputation as a leading expert in liver disease and TCM.

Ongoing Research🔬

Professor Xing’s ongoing research is centered on leveraging Traditional Chinese Medicine in the fight against liver diseases. His work spans several critical areas:

  • Viral hepatitis, MAFLD, cirrhosis, and liver cancer: His research focuses on understanding and treating these conditions through innovative TCM approaches.
  • Application of network pharmacology and bioinformatics: He utilizes cutting-edge techniques such as network pharmacology and bioinformatics to explore the prevention and treatment of liver diseases with TCM, aiming to improve therapeutic outcomes.
  • Biomaterials and nanocarriers: His work also delves into the innovation, research, and development of biomaterials and nanocarriers for targeted treatment of liver diseases, representing a promising future direction in both Western and Chinese medicine.

Research Interests🔍

Professor Xing’s primary research interests lie in the intersection of Traditional Chinese Medicine and modern biomedical technology. His expertise in liver diseases, particularly viral hepatitis and liver cancer, highlights his commitment to integrating ancient medical knowledge with modern scientific discoveries. Moreover, his focus on the application of network pharmacology and bioinformatics in liver disease prevention through TCM opens new possibilities in personalized medicine. His research in biomaterials and nanocarriers further showcases his innovative mindset, blending material science and medical science for breakthrough treatments.

Academic Background🎓

Professor Xing’s distinguished career is underpinned by a strong academic foundation. His journey through the fields of medicine and traditional Chinese medicine has been marked by continual learning and research excellence. As a doctoral supervisor and postdoctoral cosupervisor, he plays an active role in shaping the next generation of scholars and medical professionals, further advancing TCM as a modern and respected discipline.

Scholarships and Awards🏆

Throughout his career, Professor Xing has earned numerous accolades, affirming his contributions to medical science and education. Among his most notable recognitions are his awards from provincial and national bodies for his scientific achievements. His leadership roles in prestigious medical and research institutions are a testament to his contributions, with awards like the Shenzhen Chinese Medicine Leading Talent highlighting his influence in the field.

Bioinformatics💻

Professor Xing has integrated bioinformatics into his research on liver diseases, particularly within the context of Traditional Chinese Medicine. Through network pharmacology approaches, he identifies key molecular mechanisms and potential therapeutic targets for liver disease. This innovative use of bioinformatics has enabled Professor Xing to predict the interactions between herbal compounds and biological systems, opening up new possibilities for the prevention and treatment of complex liver diseases.

Professional Associations🌐

Professor Xing is actively involved in various professional organizations. He serves as the Vice President and Secretary General of the East China Southern TCM Liver Disease Alliance, and as Deputy Secretary General of the Hepatology Branch of the Chinese Society of Ethnic Medicine. He is also a standing member of several other important bodies, including the Hepatobiliary Diseases Branch of the Chinese Association of Traditional Chinese Medicine and the Executive Director of the Infectious Diseases Branch of the Chinese Society of Ethnic Medicine. His involvement in these organizations reflects his leadership in promoting liver disease research and treatment, particularly through the lens of Traditional Chinese Medicine.

Training & Workshops🏅

In his dedication to knowledge dissemination, Professor Xing actively participates in and conducts training programs and workshops. These events focus on advancements in liver disease treatments and Traditional Chinese Medicine. His mentorship extends to both aspiring researchers and established professionals, bridging the gap between ancient practices and cutting-edge scientific research.

Oral Presentations🎤

Professor Xing is a sought-after speaker at national and international conferences, where he shares his expertise on liver diseases and the integration of Traditional Chinese Medicine with modern bioinformatics. His presentations are well-received by the scientific community, as they often provide insights into innovative treatments and the application of TCM in complex diseases.

Tasks Completed as a Researcher🔑

Throughout his career, Professor Xing has played a pivotal role in over 20 major research projects at the national, provincial, and municipal levels, including the 11th, 12th, and 13th Five-Year Plan initiatives. His contributions to these projects have led to advancements in both the understanding and treatment of liver diseases, particularly through the integration of TCM with modern medical techniques.

Success Factors🏆

Professor Xing’s success can be attributed to his dedication to interdisciplinary research, combining Traditional Chinese Medicine with modern bioinformatics and material sciences. His ability to innovate, mentor young researchers, and continuously advance the field of liver disease treatments sets him apart as a leading figure in medical research.

Publications & Laboratory Experience🧪

With a focus on clinical and laboratory-based research, Professor Xing’s contributions have significantly advanced the understanding of liver diseases. His work in bioinformatics, nanocarriers, and network pharmacology offers new insights into how liver diseases can be treated using TCM-based methodologies, particularly at the molecular level. His publications serve as critical resources for future researchers in these fields.

📖Publications:

Paper Title: ROS-responsive injectable hydrogels loaded with exosomes carrying miR-4500 reverse liver fibrosis

  • Authors: Yang, H., Wang, W., Xiao, J., Xu, L., Xing, Y.
  • Journal: Biomaterials
  • Year: 2025

Paper Title: Competitive adsorption of microRNA-532-3p by circular RNA SOD2 activates Thioredoxin Interacting Protein/NLR family pyrin domain containing 3 pathway and promotes pyroptosis of non-alcoholic fatty hepatocytes

  • Authors: Chen, F., Xing, Y., Chen, Z., Luo, F., Cai, Q.
  • Journal: European Journal of Medical Research
  • Year: 2024

Paper Title: Woman with epigastric pain after massage

  • Authors: Zhong, Z., Xing, Y., Wu, Y., Guo, S.
  • Journal: JACEP Open
  • Year: 2024

Paper Title: From gut to liver: unveiling the differences of intestinal microbiota in NAFL and NASH patients

  • Authors: Huang, F., Lyu, B., Xie, F., Tong, G., Fengping, X.
  • Journal: Frontiers in Microbiology
  • Year: 2024

Paper Title: A classical herbal formula alleviates high-fat diet induced nonalcoholic steatohepatitis (NASH) via targeting mitophagy to rehabilitate dysfunctional mitochondria, validated by UPLC-HRMS identification combined with in vivo experiment

  • Authors: Chen, M., Huang, F., Chen, B., Zhou, H., Tong, G.
  • Journal: Biomedicine and Pharmacotherapy
  • Year: 2023

 

 

Shah Mohammad Azam Rishad | Composite Materials Science | FRP Composite Material Science Breakthrough Award

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Mr. Shah Mohammad Azam Rishad | Composite Materials Science | FRP Composite Material Science Breakthrough Award

Khulna University of Engineering & Technology, Bangladesh

Profile:

Current Position📊

Shah Mohammad Azam Rishad is an Assistant Researcher at Khulna University of Engineering & Technology (KUET), Bangladesh. His role involves active participation in cutting-edge research, where he integrates advanced materials science with computational approaches to tackle pressing challenges in the field. His primary focus is on Nano Trimaterial bonded joints and Ultra-High Temperature Ceramic Matrix Composites (UHTCMCs). With a strong inclination toward interdisciplinary research, Shah is continuously contributing to innovations in materials design and performance optimization. 

Publication Achievements📚

Despite being early in his career, Shah Mohammad Azam Rishad has already contributed to several key publications in renowned scientific journals. His work on the prediction, optimization, and evaluation of Nano Trimaterial bonded joints using Finite Element Method (FEM) combined with various Machine Learning algorithms such as Random Forest, Neural Network, Support Vector Regression (SVR), and Decision Tree Regressor has received significant attention from the academic community. His publications explore the intersection of materials science and computational intelligence, making his research invaluable for industries aiming to optimize material behaviors and structural performance. 

Ongoing Research🔬

Currently, Shah is deeply involved in two main research areas. One of his ongoing projects explores UHTCMCs (Ultra-High Temperature Ceramic Matrix Composites) and MMCs (Metal Matrix Composites). His research focuses on the fabrication processes of these materials, along with their microstructural analysis using state-of-the-art techniques like SEM imaging, EDS, and mapping. Shah’s goal is to better understand the material behaviors and unlock potential applications in industries such as aerospace, automotive, and electronics. His work on Nano Trimaterial bonded joints continues, where machine learning algorithms are employed to predict and enhance the structural performance of advanced materials. 

Research Interests🔍

Shah’s research interests lie at the confluence of computational materials science, machine learning, and structural mechanics. He is particularly focused on developing innovative solutions for enhancing the mechanical properties of composites and nanomaterials. His areas of interest include:

  • Machine Learning Applications in Materials Science
  • Nano Trimaterial Bonded Joints
  • Ultra-High Temperature Ceramic Matrix Composites (UHTCMCs)
  • Metal Matrix Composites (MMCs)
  • Finite Element Method (FEM) for Structural Optimization
    His passion for merging materials science with artificial intelligence has opened new avenues for optimizing material properties and creating smarter, more resilient structures. 

Academic Background🎓

Shah Mohammad Azam Rishad holds a strong academic foundation in engineering and materials science, which has paved the way for his successful research endeavors. His education at KUET provided him with the skills necessary to excel in both theoretical and practical aspects of materials research. His academic journey reflects a commitment to understanding the deeper mechanics of materials and their applications across industries. 

Scholarships and Awards🏆

Throughout his academic career, Shah has been the recipient of numerous scholarships and academic awards, acknowledging his dedication to research and innovation. His ability to secure funding for research projects and his academic excellence have set him apart as a promising researcher in the field of materials science. 

Bioinformatics💻

While Shah’s core expertise lies in materials science, his interdisciplinary approach to research also draws upon aspects of bioinformatics. By applying computational methods to the analysis of material structures, Shah incorporates data-driven strategies to solve complex problems in materials behavior and optimization. His understanding of computational tools allows him to model and simulate material properties with high precision, leading to innovative research outcomes. 

Professional Associations🌐

Shah is a member of several professional societies and associations, which provide him with a platform to collaborate with fellow researchers and stay updated on the latest advancements in materials science. His involvement in these organizations reflects his commitment to expanding his network and contributing to the scientific community on a broader scale. 

Training & Workshops🎓

To further enhance his research capabilities, Shah actively participates in national and international workshops and training programs. These experiences allow him to stay abreast of the latest trends in materials research and computational methods. He has received hands-on training in microstructural analysis techniques, FEM simulation, and machine learning algorithms specific to materials science. 

Oral Presentation🎤

Shah has presented his research findings at various conferences and symposia, where he shared his insights on the potential applications of machine learning in optimizing material properties. His ability to communicate complex ideas effectively has garnered attention and appreciation from peers and experts in the field. 

Tasks Completed as a Researcher🛠️

Shah has successfully completed numerous tasks as a researcher, including the design and execution of experiments, data analysis using machine learning models, and the publication of his findings in respected journals. His responsibilities extend to mentoring junior researchers and collaborating with other faculty members to push the boundaries of materials science. 

Success Factors🚀

The key to Shah’s success lies in his problem-solving mindset, interdisciplinary knowledge, and commitment to innovation. His ability to seamlessly blend theoretical knowledge with practical applications has allowed him to make significant contributions to his field. His work ethic and continuous pursuit of excellence have earned him a reputation as a dedicated and forward-thinking researcher. 

Publications & Laboratory Experience🏭

Shah’s extensive laboratory experience in fabrication, microstructural analysis, and mechanical testing has been pivotal in his research. His publications reflect his in-depth knowledge of advanced materials and his ability to apply computational models for optimization. The hands-on experience Shah has gained in the lab has been complemented by his proficiency in FEM analysis and machine learning tools, making his contributions both practical and innovative. 

📖Publications:

Paper Title: Evaluation of Stress Distributions in Trimaterial Bonded Joints with Nano-Resin Adhesive Using Machine Learning Models

  • Authors: SMA Rishad, MS Islam, MA Islam
  • Journal: Results in Materials
  • Year: 2024

Paper Title: Analysis of Stress Distribution of CFRP Bonded Joints: A Study of Numerical and Machine Learning Approach

  • Authors: SMA Rishad, MA Islam, MS Islam
  • Journal: Available at SSRN
  • Year: 2024

 

Adisak Guntida | Composite Materials Science | Best Researcher Award

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Dr. Adisak Guntida | Composite Materials Science | Best Researcher Award

Doctorate at Laboratoire Catalyse & Spectrochimie, France

Profile:

📝Summary

Born on January 6, 1989, Adisak Guntida is a Thai chemical engineer whose innovative research has earned him recognition in both academia and industry. Currently residing in Caen, France, Adisak is at the forefront of chemical engineering research, with a focus on catalysis and sustainable processes.

🎓 Educational Background

Adisak’s academic journey began at King Mongkut’s Institute of Technology Ladkrabang in Bangkok, Thailand, where he earned a B.Eng. in Chemical Engineering in 2011. His passion for catalysis and reaction engineering led him to pursue further studies at Chulalongkorn University, Bangkok. There, he completed his M.Eng. in Chemical Engineering in 2015, followed by a Ph.D. in 2020. His doctoral thesis focused on the transformation of propane to ethylene and butene using tandem catalysis—a project that demonstrated his ability to optimize catalytic processes and minimize side reactions.

💼 Professional Experience

Adisak’s professional career is marked by a series of prestigious postdoctoral research positions. Since 2023, he has been working as a Postdoctoral Researcher at Laboratoire Catalyse & Spectrochimie (LCS), UMR ENSICAEN-Unicaen-CNRS in Caen, France, under the supervision of Assoc. Prof. Karine Thomas and CNRS Research Director Françoise Maugé. His work focuses on developing advanced spectroscopic methods to study solid-liquid interfaces during catalytic reactions. His previous postdoctoral positions include research on titanium-incorporated SBA-15 catalysts for oxidative desulfurization and biomass conversion into high-value products.

Adisak’s research has taken him to the University of California, Davis, where he worked as a Visiting Researcher under the supervision of Prof. Bruce C. Gates. There, he contributed to the synthesis and characterization of novel platinum catalysts, further solidifying his expertise in catalysis.

Before embarking on his research career, Adisak gained industrial experience as a Chemical Engineer in the R&D Unit at Ajinomoto Co., Ltd, in Samut Prakan, Thailand. He provided technical support for various processes, honing his skills in experimental design and problem-solving.

🏆 Fellowships and Awards

Adisak has been the recipient of several prestigious fellowships, including:

  • Institut Carnot ESP Fund for Postdoctoral Fellowship (2023-2024)
  • Dielix by Sarpi-Veolia Fund for Postdoctoral Fellowship (2022-2023)
  • Ratchadapisek Somphot Fund for Postdoctoral Fellowship (2021-2022)
  • Franco-Thai Mobility Programme/PHC SIAM for Visiting Researcher (2021-2022)
  • SCG Chemicals Scholarship for PhD and Master’s Studies (2013-2020)

🌐 Memberships and Collaborations

Adisak is an active member of the Catalysts and Reaction Engineering Association of Thailand and the Council of Engineers Thailand. His collaborative spirit has led to partnerships with leading researchers and institutions, including CNRS Research Director Françoise Maugé, Prof. Piyasan Praserthdam at Chulalongkorn University, and Prof. Bruce C. Gates at the University of California, Davis.

📚 Major Publications and Conferences

Adisak’s research contributions have been published in several high-impact journals. Some of his notable works include studies on catalytic oxidative desulfurization, the hydrogenation of CO and CO2, and methyl stearate ketonization. He has also presented his research at internationally established conferences, such as the International Congress on Catalysis (ICC 2024) in Lyon, France, and the European Federation of Catalysis Societies (EuropaCat-2023) in Prague, Czech Republic.

🌍 Impact and Future Directions

Adisak Guntida’s work in chemical engineering, particularly in catalysis and sustainable processes, continues to push the boundaries of what is possible. His dedication to improving catalytic systems for environmental and industrial applications highlights his commitment to a more sustainable future. As he continues his research, Adisak remains a key figure in the field, contributing to innovations that have the potential to transform the industry.

📚Legacy and Future Contributions

Looking ahead, Adisak Guntida’s legacy in chemical engineering and catalysis is poised to grow even further. His dedication to advancing the field through innovative research and collaboration sets a strong foundation for future contributions. As he continues to explore new frontiers in catalysis and sustainable energy, Adisak’s work will likely inspire future generations of researchers and engineers.

📖Publications:

Paper Title:Catalytic oxidative desulfurization of liquid fuel: Impact of oxidants, extracting agents, and heterogeneous catalysts with prospects for biodiesel upgrading-A mini review

  • Authors: A. Guntida, D.S.S. Jorqueira, C. Nikitine, P. Fongarland, K. Thomas, F. Maugé
  • Journal: Biomass and Bioenergy
  • Year: 2024

Paper Title: Atomically dispersed metals on well-defined supports including zeolites and metal–organic frameworks: Structure, bonding, reactivity, and catalysis

  • Authors: M. Babucci, A. Guntida, B.C. Gates
  • Journal: Chemical Reviews
  • Year: 2020

Paper Title: Lewis acid transformation to Bronsted acid sites over supported tungsten oxide catalysts containing different surface WOx structures

  • Authors: A. Guntida, K. Suriye, J. Panpranot, P. Praserthdam
  • Journal: Catalysis Today
  • Year: 2020

Paper Title: Comparative Study of Lewis Acid Transformation on Non-reducible and Reducible Oxides Under Hydrogen Atmosphere by In Situ DRIFTS of Adsorbed NH3

  • Authors: A. Guntida, K. Suriye, J. Panpranot, P. Praserthdam
  • Journal: Topics in Catalysis
  • Year: 2018

Paper Title: Acidic nanomaterials (TiO 2, ZrO 2, and Al 2 O 3) are coke storage components that reduce the deactivation of the Pt–Sn/γ-Al 2 O 3 catalyst in propane dehydrogenation

  • Authors: A. Guntida, S. Wannakao, P. Praserthdam, J. Panpranot
  • Journal: Catalysis Science & Technology
  • Year: 2020

 

Azim Uddin | Composite Materials Science | Best Researcher Award

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Dr. Azim Uddin | Composite Materials Science | Best Researcher Award

Doctorate at School of Materials Science & Engineering, Zhejiang University, China

Profiles:

📝Introduction

Dr. Engineering Azim Uddin stands as a luminary in the field of advanced smart multifunctional materials, with a focus on metallic fibers, 2D micro-nanostructures, porous carbon, and biomass-cellulose-based polymer composites. His contributions span across microwave absorption, electromagnetic shielding, dielectrics, energy storage, and high-frequency measurements. With an impressive portfolio of over 15 publications in major international journals, accumulating 400+ citations, and an h-index of 12, Dr. Uddin is recognized as one of the most promising young researchers in his field.

🎓Educational Background

Dr. Uddin’s academic journey commenced at the PAF-Karachi Institute of Economics and Technology (PAF KIET) in Pakistan, where he earned his Bachelor’s in Electronics Engineering with a commendable CGPA of 3.52/4.0. His exceptional performance earned him several Presidential and Directorial Academic Awards, including the Best Final Year Project Award at SPEC’2014.

He further honed his expertise by pursuing a Master’s degree in Nanotechnology and Materials for Micro & Nano-systems at the National University of Science and Technology MISiS, Russia. Under the guidance of Prof. Larissa V. Panina, Dr. Uddin achieved a remarkable CGPA of 4.95/5.0, securing scholarships and accolades such as the Science Day Conference award in Moscow.

Driven by an insatiable curiosity and a desire to push the boundaries of material science, Dr. Uddin pursued his Ph.D. at Zhejiang University, China. His doctoral research, supervised by Research Prof. Faxiang Qin, focused on the intricate physics and chemistry of materials, laying the foundation for his future innovations in smart composite materials.

🔬Professional Experience and Research Contributions

Dr. Uddin’s professional trajectory is marked by his postdoctoral research at Zhejiang University, where he has been instrumental in advancing the understanding and development of electromagnetic composite materials. His role as a postdoctoral researcher has seen him engage in several high-impact projects, including those funded by the National Natural Science Foundation of China (NSFC). His work on high-performance stealthy metacomposites and integrated Bio-Giant Magnetoimpedance sensors has significantly contributed to the field’s knowledge base.

Before his current role, Dr. Uddin gained valuable experience as a Project Coordinator for International Academic Affairs at NUST MISiS, Moscow, and as a Research Intern at National Chiao Tung University, Taiwan. His diverse experiences, ranging from system support engineering to advanced research internships, have equipped him with a unique blend of practical and theoretical knowledge.

👨‍🏫Teaching and Mentorship

Beyond research, Dr. Uddin is also a dedicated educator. As a Teaching Assistant at Zhejiang University, he has played a pivotal role in guiding students through complex subjects such as Materials Design & Processing, Polymer Nanocomposites, and Fundamentals of Electromagnetic Composites. His commitment to teaching extends back to his time at PAF-KIET, where he served as a Teaching Assistant and Grader, and as an Adjunct Teacher at the Private Karachi Institute of Education in Pakistan.

His mentorship has also extended to supervising undergraduate research projects, such as the study on the magnetic properties of amorphous microwire used in magnetic cores by Li Haoyang, a B.Sc. student at Zhejiang University.

🏆Accolades and Recognition

Dr. Uddin’s contributions have been widely recognized. In 2023, he was awarded the prestigious Young Researcher Award by the Chinese Society of Composite Materials (CSCM). He has also been the recipient of multiple scholarships and awards throughout his academic and professional journey, including the Two-High Doctoral Scholarship from Zhejiang University and accolades from various international conferences, such as the Best Oral Poster Presentation at the Saint Petersburg OPEN Conference-2017.

🎙️Invited Talks and Conferences

Dr. Uddin’s expertise is regularly sought after in international forums. He has delivered invited talks at prestigious institutions, including Zhejiang University, Habib University in Pakistan, and Beijing University of Technology. His presentations, often centered around the recent advancements in metacomposite materials and their applications, have positioned him as a thought leader in the field.

📚Publications and Research Impact

With a robust publication record, Dr. Uddin’s research findings have been disseminated widely, influencing both academia and industry. His work on microwave programmable responses in Co-based microwire polymer composites and the development of sustainable green shielding materials are particularly noteworthy. His publications, many of which are co-authored with other leading researchers, demonstrate his collaborative spirit and his ability to contribute meaningfully to multi-disciplinary projects.

 👥Memberships and Academic Services

Dr. Uddin is an active member of several esteemed professional organizations, including the Chinese Society of Composite Materials (CSCM) and the Pakistan Engineering Council (PEC). He also serves on the editorial boards of various scientific journals, contributing to the peer-review process and ensuring the dissemination of high-quality research.

✍️Conclusion

Dr. Azim Uddin’s career is a testament to his dedication, expertise, and innovative spirit. His work in the field of advanced composite materials and nanotechnology continues to break new ground, promising to shape the future of material sciences. As he continues his research and academic endeavors, Dr. Uddin’s impact is sure to resonate across the global scientific community, inspiring the next generation of researchers and engineers.

📖Publications:

Paper Title: Recycling of binary polymer (PET/SBR) carpet into microfibrillar composites: A life cycle perspective with microplastics quantification

  • Authors: Yasin, S., Hussain, M., Uddin, A., Shi, J., Song, Y.
  • Journal: Sustainable Materials and Technologies
  • Year: 2024

Paper Title: A Roadmap from Functional Materials to Plant Health Monitoring (PHM)

  • Authors: Babangida, A.A., Uddin, A., Stephen, K.T., Zhang, L., Ge, D.
  • Journal: Macromolecular Bioscience
  • Year: 2024

Paper Title: Electric–magnetic synergism in BaTiO3-magnetic microwire/silicone rubber composites for enhanced microwave and electromagnetic shielding tunability

  • Authors: Estevez, D., Uddin, A., Salem, M.
  • Journal: European Physical Journal Plus
  • Year: 2023

Paper Title: Broadband measurements of the surface impedance in ferromagnetic wires as a boundary condition for scattering problems

  • Authors: Uddin, A., Qin, F., Estevez, D., Zhao, Y., Makhnovskiy, D.
  • Journal: Measurement Science and Technology
  • Year: 2023

Paper Title: Thermally Stable Silicone Elastomer Composites Based on MoS2@Biomass-Derived Carbon with a High Dielectric Constant and Ultralow Loss for Flexible Microwave Electronics

  • Authors: Uddin, A., Estevez, D., Khatoon, R., Qin, F.
  • Journal: ACS Applied Materials and Interfaces
  • Year: 2023

 

Rajendran I. | Natural Fibers | Outstanding Scientist Award

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Dr. Rajendran I. | Natural Fibers | Outstanding Scientist Award

Paavai Engineering College, Namakkal - India

Professional Profiles:

Early Academic Pursuits

Dr. I. Rajendran commenced his academic journey with notable distinctions in both his school and undergraduate education. A mechanical engineer by training, he completed his Bachelor of Engineering (B.E.) at the prestigious College of Engineering-Guindy, Anna University, Chennai, with first class honors in 1991. He further excelled by obtaining his Master’s in Engineering Design, also from Anna University in 1994, graduating with distinction and a commendable 77% aggregate. Dr. Rajendran's early academic accolades reflect a foundational excellence and deep-rooted passion for mechanical engineering, setting the stage for a distinguished academic and research career. He crowned his academic achievements with a Ph.D. from PSG College of Technology, affiliated with Bharathiar University in Coimbatore, completed in December 2001.

Professional Endeavors

Dr. Rajendran has held several key academic and administrative positions, contributing significantly to the institutions he has been part of. His career began as a Lecturer in 1995 at Maharaja Engineering College, Avinashi, where he honed his teaching and research skills. He quickly moved through the ranks, serving as Senior Lecturer, Assistant Professor, and Professor at various esteemed institutions including Amrita Institute of Technology and Science, Bannari Amman Institute of Technology, and Dr. Mahalingam College of Engineering and Technology. In August 2023, he was appointed as the Professor of Mechanical Engineering and Dean of Research & Innovation at Paavai Engineering College, a role that involves overseeing the college’s research initiatives and promoting innovation across departments.

Contributions and Research Focus on Natural Fibers

Dr. Rajendran's research has been multifaceted with significant contributions to the field of materials science, particularly in the development and characterization of novel materials and their applications in engineering. His work often explores the interface of natural resources and engineering applications, such as his research on cellulosic fibers from various plant sources as potential reinforcements for polymer composites. This work not only advances the understanding of material properties but also contributes to sustainable engineering solutions. His studies on the biosynthesis of nanoparticles and their thermal properties illustrate his commitment to advancing knowledge in both materials science and its applications in improving energy efficiency.

Accolades and Recognition

Dr. Rajendran's academic and research achievements have garnered recognition both nationally and internationally. His extensive publication record, including papers in high-impact journals such as the International Journal of Biological Macromolecules and Journal of Thermal Analysis and Calorimetry, highlights his contributions to the field and his stature among peers. His research has been frequently cited, reflecting the impact of his work on the global research community.

Impact and Influence

Dr. Rajendran’s research has notably influenced several areas of mechanical engineering and materials science, especially in sustainable material use and energy efficiency. His work on natural fiber-reinforced composites is particularly impactful in promoting sustainable engineering practices, potentially reducing reliance on synthetic materials which are more environmentally taxing. Furthermore, his leadership roles in academia help shape the careers of future engineers and researchers, thereby multiplying his impact on the field.

Legacy and Future Contributions

As he continues his role as Dean of Research & Innovation, Dr. Rajendran is poised to steer his institution towards becoming a hub of innovation and high-quality research. His ongoing projects and future endeavors will likely focus on expanding the practical applications of his research in industry collaborations, contributing to advancements in manufacturing processes, materials science, and sustainability. His legacy, characterized by a commitment to education and innovation, will inspire future generations of engineers and researchers to pursue excellence with a conscientious approach to engineering and technology.

Citations:

                   Citations          2555
                    h-index                22
                   i10-index              29

Amr Seif | Hybrid composites | Best Researcher Award

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Dr. Amr Seif | Hybrid composites | Best Researcher Award

Faculty of engineering Zagazig university - Egypt

Professional Profiles:

Early Academic Pursuits

Amr Saefeldean embarked on his academic journey with a Bachelor's degree in Mechanical Design and Production Engineering, where he excelled with First-Class Honors from Zagazig University, Egypt. During this time, he demonstrated a keen interest in innovative research areas, including fiber metal laminates, dynamic material behavior, and eco-friendly materials. His graduation project on the design and testing of a speed bump energy harvester showcased his early dedication to practical applications of mechanical engineering principles.

Professional Endeavors

After completing his undergraduate studies, Amr pursued a Master's degree in Mechanical Design and Production Engineering at Zagazig University, focusing on the machinability of metallic-reinforced polymeric matrix composites. His research involved optimizing manufacturing processes through the Taguchi approach and Grey Relational Analysis, demonstrating his proficiency in experimental design and statistical analysis. Throughout his academic journey, he actively engaged in teaching activities, supervising workshop training programs, and instructing undergraduate courses, further enhancing his expertise in mechanical engineering education.

Contributions and Research Focus on Hybrid composites

Amr's research contributions lie at the intersection of composite materials, machining, and experimental design. His expertise spans fiber metal laminates, nontraditional machining of composites, and the dynamic behavior of materials. Through his master's thesis and various research experiences, he has delved into the mechanical characterization of hybrid composite materials, aiming to address critical challenges faced by industrial sectors. His focus on eco-friendly materials underscores his commitment to sustainable engineering practices, aligning with global efforts towards environmental conservation.

Accolades and Recognition

Amr's academic achievements and research contributions have been recognized through accolades such as his outstanding GPA during his Master's degree and his active involvement in research projects. His proficiency in experimental design, statistical analysis, and machining techniques has garnered appreciation from peers and mentors alike, positioning him as a promising researcher in the field of mechanical engineering.

Impact and Influence

He research endeavors have the potential to significantly impact the development of sustainable materials and manufacturing processes. By optimizing the machinability of composite materials and exploring eco-friendly alternatives, he aims to contribute to the advancement of industries reliant on lightweight, durable, and environmentally conscious materials. His teaching activities and mentorship roles have also influenced aspiring engineers, nurturing a new generation of researchers committed to innovation and sustainability.

Legacy and Future Contributions

His academic and professional journey, he envisions a legacy of pioneering research in sustainable materials and manufacturing techniques. His dedication to addressing real-world challenges through interdisciplinary research and collaboration sets the stage for impactful contributions to the field of mechanical engineering. With a focus on eco-friendly materials and innovative manufacturing processes, he strives to leave a lasting legacy of sustainability and excellence in engineering education and research.

Citations:

                   Citations           15
                    h-index               3
                  Documents          5