Mohammad Sadegh Shakeri | Materials Science and Engineering | Innovations in Materials Engineering Award

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Dr. Mohammad Sadegh Shakeri | Materials Science and Engineering | Innovations in Materials Engineering Award

Assistant Professor at Institute of Nuclear Physics Polish Academy of Sciences, PL-31342 Krakow, Poland

Dr. Mohammad Sadegh Shakeri is an accomplished materials scientist with extensive expertise in magnetic materials and nanostructures. Currently an Assistant Professor at the Institute of Nuclear Physics Polish Academy of Sciences in Krakow, Poland, he specializes in the study of photocatalytic materials, their synthesis, and applications. With a solid foundation in materials science and engineering, his academic journey reflects a commitment to advancing the field through research and innovation.

Profile

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Education

Dr. Shakeri completed his education in Materials Science and Engineering, earning a Ph.D. from the Materials & Energy Research Centre in Iran (2017). His academic credentials include a Master’s degree from the University of Tabriz (2012) and a Bachelor’s degree from Sahand University of Technology (2009). His educational background has equipped him with the theoretical knowledge and practical skills necessary for tackling complex challenges in materials research.

Experience

Dr. Shakeri has held several notable positions throughout his career. He is currently engaged as an Assistant Professor in the Department of Magnetic Materials and Nanostructures. Prior to this, he served as a postdoctoral researcher at the same institute and held visiting researcher roles in Germany and France. His diverse experience also includes positions as a lecturer at Faradars Virtual University and as an R&D specialist in a private company, where he applied his scientific expertise in practical settings.

Research Interests

His research interests focus on the synthesis and characterization of advanced materials, particularly in the realm of photocatalysis and nanotechnology. Dr. Shakeri investigates the mechanisms underlying material properties, employing techniques such as density functional theory (DFT) and molecular dynamics simulations to explore the electronic structures and behavior of nanostructures during various processes, including laser irradiation.

Awards

Dr. Shakeri has received several prestigious awards recognizing his contributions to materials science. In 2023, he was honored with the Polish Ministry of Science and Education Scholarship for Outstanding Young Scientists. He also received the PSRS Award from the Polish Synchrotron Radiation Society in 2024 and was named Scientist of the Year by the Institute of Nuclear Physics Polish Academy of Sciences in the same year. His accolades reflect his dedication to excellence in research and teaching.

Publications

Dr. Shakeri has authored and co-authored a number of publications in reputable journals, contributing significantly to the field of materials science. Key publications include:

Shakeri, M.S. et al. “Effect of hydroxyapatite coating on corrosion behavior and nickel release of NiTi shape memory alloy,” Materials and Corrosion, 2014. DOI: 10.1002/maco.201206950.

Maleki-Ghaleh, H., Shakeri, M.S. “Electrochemical and cellular behavior of ultrafine-grained titanium in vitro,” Materials Science and Engineering C, 2014. DOI: 10.1016/j.msec.2014.03.001.

Shakeri, M.S. et al. “Influence of Fe3O4 Nanoparticles in Hydroxyapatite Scaffolds on Proliferation of Primary Human Fibroblast Cells,” Journal of Materials Engineering and Performance, 2016. DOI: 10.1007/s11665-016-2086-4.

Delbari, S.A., Shakeri, M.S. et al. “Characterization of TiC ceramics with SiC and/or WC additives,” Journal of the Taiwan Institute of Chemical Engineers, 2021. DOI: 10.1016/j.jtice.2021.05.039.

Yu, H., Shakeri, M.S. et al. “HRTEM study and mechanical properties of ZrB2–SiC composite,” International Journal of Refractory Metals and Hard Materials, 2022. DOI: 10.1016/j.ijrmhm.2022.105789.

His work has been well-cited in the scientific community, underscoring his impact on the field.

Conclusion

In summary, Dr. Mohammad Sadegh Shakeri is a dedicated researcher and educator whose contributions to materials science are noteworthy. His extensive background in materials engineering, combined with a focus on innovative research and collaboration, positions him as a leading figure in the study of magnetic materials and nanostructures. Through his teaching and research, he continues to inspire future generations of scientists and advance the understanding of complex materials systems.

Ameelia Roseline | Materials Science and Engineering | Best Researcher Award

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Dr. Ameelia Roseline | Materials Science and Engineering | Best Researcher Award

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JoΓ£o Grilo | Materials Science and Engineering | Best Researcher Award

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Dr. JoΓ£o Grilo | Materials Science and Engineering | Best Researcher Award

Researcher at Universidade de Aveiro, Portugal

JoΓ£o Paulo de Freitas Grilo is a dedicated researcher in Materials Science and Engineering, specializing in ceramics and electrochemical materials. He earned his Ph.D. in Materials Science and Engineering from the University of Aveiro in 2019. With a robust academic background, he has actively contributed to the scientific community through extensive research, numerous publications, and collaborative projects. Currently, he serves as a researcher at the University of Aveiro, focusing on ionic conductors, solid oxide cells, and composite materials. His work has significantly impacted the field of engineering and technology, particularly in advancing material properties for energy applications.

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Education

JoΓ£o Paulo de Freitas Grilo has an extensive academic background in materials engineering. He completed his Ph.D. in Materials Science and Engineering in 2019 at the University of Aveiro. Prior to this, he earned a Master’s degree in Materials Engineering from the Federal University of Rio Grande do Norte (UFRN) in 2015. His undergraduate studies in Materials Engineering were also conducted at UFRN, where he graduated in 2013. Additionally, he obtained a Bachelor’s degree as an Electrical Technician from the Institute of Federal Education, Science, and Technology of Rio Grande do Norte in 2009. His education provided a strong foundation for his research in materials science and engineering, with a particular focus on ceramics and electrochemical applications.

Experience

JoΓ£o Paulo de Freitas Grilo has accumulated a wealth of experience in both research and academic environments. As a researcher at the University of Aveiro, he has been deeply involved in various scientific investigations and technological advancements. His contributions include co-supervising Ph.D. theses and MSc dissertations, demonstrating his role in mentoring and developing the next generation of scientists. He has participated in multiple research projects, assuming roles as a researcher, Ph.D. fellow, and supervisor. His expertise extends to organizing academic events and collaborating with international teams to advance the understanding of solid-state ionic conductors and mixed conductors.

Research Interests

His primary research interests lie in the field of engineering and technology, specifically in materials engineering. His work focuses on ceramics, solid oxide cells, and grain boundary engineering. He has explored ionic and mixed conductors, emphasizing the development of materials for energy applications, including fuel cells and electrochemical devices. His studies also delve into processing techniques and the impact of microstructures on electrical properties. Through his research, he aims to enhance material performance, efficiency, and durability in energy conversion systems. His investigations are instrumental in developing innovative materials for sustainable energy solutions.

Awards

JoΓ£o Paulo de Freitas Grilo has received recognition for his contributions to materials science and engineering. His work has been acknowledged through awards and nominations in prestigious conferences and research institutions. His dedication to advancing ceramics and electrochemical materials has earned him positions in significant scientific projects, reflecting the impact of his research on the scientific community. His contributions to solid oxide fuel cells and composite electrolytes have been widely recognized, making him a leading figure in his area of expertise.

Publications

JoΓ£o Paulo de Freitas Grilo has authored numerous publications in high-impact journals, contributing significantly to the field of materials science. Some of his key publications include:

Tidei, H. J., Yang, T., & Grilo, J. P. F. (2025). “Role of microstructure on the electrical properties of ceria-based composites.” International Journal of Hydrogen Energy.

Melo, K. P. V., AraΓΊjo, A. J. M., Grilo, J. P. F., et al. (2024). “Understanding the oxygen reduction reaction of one-dimensional Ca3Co2O6 cathodes for SOFC.” International Journal of Hydrogen Energy.

Starykevich, M., RondΓ£o, A. I. B., Grilo, J. P. F., & Marques, F. M. B. (2023). “Tuning of phase content, microstructure, and thermal expansion of MgPSZ.” Ceramics International.

AraΓΊjo, A. J. M., Loureiro, F. J. A., Grilo, J. P. F., et al. (2022). “A high-performance oxygen electrode for solid oxide cells: Compositional optimization of barium cobaltite-based composites.” Journal of Alloys and Compounds.

RondΓ£o, A. I. B., Grilo, J. P. F., Starykevich, M., & Marques, F. M. B. (2022). “Dilatometric inspection of phase changes in Mg-PSZ.” Thermochimica Acta.

Grilo, J. P. F., Jamale, A., Starykevich, M., et al. (2022). “Role of salts on the electrical performance of ceria-based electrolytes: An overview.” Frontiers in Materials.

Garcia, M. F. L., AraΓΊjo, A. J. M., Raimundo, R. A., et al. (2021). “Electrical properties of Ca-doped ceria electrolytes prepared by proteic sol-gel route and by solid-state reaction using mollusk shells.” International Journal of Hydrogen Energy.

Conclusion

JoΓ£o Paulo de Freitas Grilo is a prominent researcher in materials science, specializing in ceramics and electrochemical applications. With a solid academic background, extensive research experience, and numerous high-impact publications, he has significantly contributed to advancements in solid oxide fuel cells and composite electrolytes. His work continues to influence the scientific community, paving the way for innovative materials in energy conversion and storage applications. His dedication and expertise make him a valuable asset in the field of materials engineering.

Benjamin Teo | Materials Science and Engineering | Best Researcher Award

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Dr. Benjamin Teo | Materials Science and Engineering | Best Researcher Award

UKRI Postdoctoral Fellow at Imperial College London, United Kingdom

Dr. Benjamin H. W. Teo is an accomplished researcher in the fields of adsorption science and engineering, metal-organic frameworks, renewable energy technology, additive manufacturing, polymer crystallization, and photovoltaic-thermal systems. With a strong academic background and extensive research experience, he has contributed significantly to the advancement of sustainable energy solutions and materials engineering. Currently serving as a UKRI Postdoctoral Fellow at Imperial College London, Dr. Teo continues to push the boundaries of scientific discovery and innovation in his field.

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Education

Dr. Teo obtained his Ph.D. in Mechanical Engineering from Nanyang Technological University (NTU), Singapore, where he focused on the modulation and green synthesis of metal-organic frameworks (MOFs) for enhanced water uptake and adsorption kinetics in cooling applications. Prior to this, he earned a Bachelor of Engineering in Mechanical Engineering from NTU with First Class Honours. He also holds a Diploma with Merit in Mechatronics from Temasek Polytechnic, Singapore. His educational journey includes participation in a student exchange program at San Diego State University, USA.

Experience

Dr. Teo’s professional journey has been marked by impactful roles in both academia and industry collaborations. Currently, as a UKRI Postdoctoral Fellow at Imperial College London, he is investigating the performance of solar cells integrated with sustainable technologies. He previously worked at NTU’s HP-NTU Digital Manufacturing Corporate Lab as a Research Fellow, where he studied polymer crystallization behavior in additive manufacturing processes. His earlier roles include working as a Project Officer in NTU’s School of Mechanical and Aerospace Engineering, focusing on MOFs for water adsorption and energy applications.

Research Interest

Dr. Teo’s research interests encompass a broad range of interdisciplinary fields, including adsorption science, metal-organic frameworks, renewable energy technology, additive manufacturing, polymer crystallization, and photovoltaic-thermal systems. His work aims to enhance material properties for applications in energy efficiency and sustainability, bridging the gap between theoretical simulations and practical implementations.

Awards

Dr. Teo has received numerous accolades for his contributions to research and academia. Notable awards include the Seal of Excellence from the MSCA Fellowship Call 2020 by the European Commission, an Honorable Mention at the Virtual Poster Workshop (HP-NTU Corporate Lab), and the Best Paper Award at the 4th International Symposium on Innovative Materials for Processes in Energy Systems. Additionally, he was recognized with the Best Teaching Assistant Award at NTU and was featured on the Dean’s List and Director’s List during his academic tenure.

Selected Publications

Teo, H. W. B., Ng, M. S., Xenon storage density and its energy flow through adsorption on metal-organic frameworks, Journal of Industrial and Engineering Chemistry, 2024. (Citation: 2, Impact Factor: 6.1)

Le, K. Q., Tran, V. T., Chen, K., Teo, H. W. B., Predicting crystallinity of polyamide 12 in multi-jet fusion process, Journal of Manufacturing Processes, 2023. (Citation: 2, Impact Factor: 5.684)

Teo, H. W. B., Chen, K., Tran, V. T., Non-isothermal crystallization behavior of polyamide 12 analogous to multi-jet fusion additive manufacturing, Polymer, 2021. (Citation: 14, Impact Factor: 4.43)

Teo, H. W. B., Chakraborty, A., Aluminium fumarate MOF for water adsorption: Cooling/heat pump applications, Microporous and Mesoporous Materials, 2018. (Citation: 59, Impact Factor: 5.455)

Teo, H. W. B., Chakraborty, A., Experimental study of isotherms and kinetics for adsorption of water on Aluminium Fumarate, International Journal of Heat and Mass Transfer, 2017. (Citation: 107, Impact Factor: 5.584)

Teo, H. W. B., Chakraborty, A., Water adsorption on CHA and AFI Types Zeolites, Applied Thermal Engineering, 2017. (Citation: 60, Impact Factor: 5.295)

Teo, H. W. B., Chakraborty, A., Improved adsorption characteristics data for AQSOA types zeolites and water systems, Microporous and Mesoporous Materials, 2017. (Citation: 133, Impact Factor: 5.455)

Conclusion

Given his extensive research contributions, innovation, mentorship, and global recognition, Dr. Benjamin H. W. Teo is a highly suitable candidate for the “Best Researcher Award.” His work continues to push boundaries in material science and sustainable energy applications, making a lasting impact on both academia and industry.

Xuemei Wei | Materials Science and Engineering | Best Paper Award

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Dr Xuemei Wei | Materials Science and Engineering | Best Paper Award







Assistant Researcher, Shaoxing University, China


Dr. Xuemei Wei is an accomplished researcher specializing in metal-organic chemistry and catalysis. She holds a Ph.D. in Physical Chemistry from the Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences. Her expertise lies in the development of nano-catalytic materials for environmental and energy applications. With over 12 SCI publications in high-impact journals, she has made significant contributions to catalyst design and chemical transformations. Currently, she serves as an Assistant Researcher at Shaoxing University, where she advances research in pharmaceutical and chemical sciences. Her work integrates innovative nanomaterials to address environmental challenges and sustainable energy solutions.


PROFESSIONAL PROFILE


Scopus


EDUCATION


πŸŽ“ Ph.D. in Physical Chemistry – Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences (2018-2021)
πŸ“ Thesis: Design and Mechanism of Efficient Carbonylation Catalysts under Ambient Conditions.
πŸŽ“ M.Sc. in Inorganic Chemistry – Inner Mongolia University (2013-2016)
πŸŽ“ B.Sc. in Chemistry – Jilin Normal University (2009-2013)


PROFESSIONAL EXPERIENCE


πŸ”¬ Assistant Researcher – Shaoxing University, College of Chemistry and Chemical Engineering (2021-Present)
πŸ” Focus: Development of nano-catalytic materials for industrial and environmental applications.
πŸ§ͺ R&D Specialist – Changchun Zhongke Haorong New Materials Research Co., Ltd. (2016-2018)
πŸš€ Developed and optimized catalytic materials for large-scale industrial use.


AWARDS & HONORS


πŸ† Recognized for research contributions in metal-organic chemistry.
πŸ“œ Multiple SCI-indexed publications in top-tier journals.
🌍 Acknowledged for innovative approaches in environmental catalysis.


RESEARCH FOCUS


πŸ§ͺ Catalysis Under Ambient Conditions: Development of carbonylation catalysts for industrial applications.
🌱 Environmental Nanomaterials: Engineering nanomaterials for pollutant degradation and remediation.
⚑ Sustainable Energy Catalysis: Exploring hydrodeoxygenation reactions for green chemistry solutions.


PUBLICATION TOP NOTES


πŸ“„ Turning on Ambient Conditions Hydrodeoxygenation of Biobased Aromatic Alcohols – Energy Conversion and Management (2025)
πŸ“„ Construction of MXene-loaded Nanoscale Zero-Valent Iron for ReO4-/TcO4- Sequestration – Separation and Purification Technology (2024)
πŸ“„ Deciphering the Facet-Dependent Scavenging Potential of Ξ±-Fe2O3 Nanocrystals – Applied Surface Science (2024)
πŸ“„ Crucial Size Effect on Dicarbonylation of Acetylene Over Pd/CsHPMo Catalysts – Dalton Transactions (2024)
πŸ“„ Targeting Phosphodiesterase 4 as a Therapeutic Strategy for Cognitive Improvement – Bioorganic Chemistry (2023)
πŸ“„ Vesicular BiVO4 Nanostructures Modified by g-C3N4 Quantum Dots – Materials Science in Semiconductor Processing (2024)
πŸ“„ Synergistic Effect of Hematite Facet and Pd Nanocluster for Acetylene Dicarbonylation – Molecular Catalysis (2021)
πŸ“„ Strong Metal-Support Interactions Between Palladium Nanoclusters and Hematite – New Journal of Chemistry (2020)
πŸ“„ Highly Efficient Selective Dicarbonylation of Acetylene Catalyzed by Palladium Nanosheets – New Journal of Chemistry (2020)
πŸ“„ Catalyst in Acetylene Carbonylation: From Homogeneous to Heterogeneous – Progress in Chemistry (2020)
πŸ“„ Advances in Research on Structure-Activity Relationship in Hydrogenation Catalysts – Chemical Industry and Engineering Progress (2020)
πŸ“„ Support Morphology-Dependent Catalytic Activity of Co/CeO2 for Phenol Hydrogenation – New Journal of Chemistry (2020)


CONCLUSION


Dr. Xuemei Wei is a leading researcher in catalysis and nanomaterials, making significant strides in environmental and sustainable chemistry. Her contributions to metal-organic chemistry and catalytic performance have earned her recognition in top scientific journals. As an Assistant Researcher at Shaoxing University, she continues to develop innovative solutions for industrial and environmental challenges. πŸš€πŸ”¬





	


	

	






	
	

		


Jurgita Malaiskiene | Building Materials based on waste | Best Paper Award
			

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Dr Jurgita Malaiskiene | Building Materials based on waste | Best Paper Award


Chief researcher, Vilnius Gediminas Technical University, Lithuania


Jurgita MalaiΕ‘kienΔ— is a distinguished researcher affiliated with Vilnius Gediminas Technical University in Lithuania. With a robust academic background, she specializes in materials science, focusing on the innovative use of industrial waste in construction. Her work aims to enhance the sustainability of building materials and improve the durability of concrete. An advocate for environmental stewardship, Jurgita actively engages in projects that promote recycling and the utilization of by-products in civil engineering. Her research has garnered significant attention, leading to numerous publications and collaborations with experts in the field.


Profile


ORCID


SCOPUS


Strengths for the Award


Jurgita MalaiΕ‘kienΔ— exemplifies excellence in the field of materials science, with a strong focus on sustainability in construction. Her impressive h-index of 11 and 490 citations reflect the significant impact of her research, particularly in utilizing industrial waste to enhance concrete durability. Her recent publications, including studies on the influence of silica fly ash and electronic waste glass, demonstrate her innovative approach and commitment to addressing environmental challenges. Jurgita’s active engagement in collaborative projects further strengthens her profile, as she effectively bridges academia and industry. Additionally, her contributions to open-access research promote knowledge sharing and accessibility in the scientific community.


Areas for Improvement


While Jurgita has a solid foundation in publication and citation metrics, expanding her presence in international conferences and workshops could enhance her visibility and influence. Increasing the diversity of her research topics, such as exploring new materials or technologies, could also broaden her impact. Additionally, establishing mentorship programs for emerging researchers would enrich her contributions to the academic community and foster the next generation of scientists.


Education


Jurgita MalaiΕ‘kienΔ— earned her Master’s degree in Civil Engineering from Vilnius Gediminas Technical University, where she developed a keen interest in material properties and sustainable construction practices. She subsequently pursued a Ph.D. in Construction Materials, focusing on the durability and performance of concrete incorporating industrial by-products. Her education emphasized both theoretical and practical aspects of civil engineering, equipping her with the knowledge to address contemporary challenges in the field. Through her academic journey, she has gained a comprehensive understanding of material science and engineering principles, which she applies in her research to innovate and improve construction methodologies.


Experience


Jurgita MalaiΕ‘kienΔ— has extensive experience in both academic and research settings. Currently, she is a researcher and lecturer at Vilnius Gediminas Technical University, where she teaches courses on construction materials and sustainability. Over the years, she has participated in various national and international research projects aimed at developing eco-friendly construction solutions. Her role often involves collaboration with industry stakeholders, contributing to applied research that bridges the gap between academia and practice. Jurgita has also served on several committees focused on advancing civil engineering education and research in Lithuania. Her dedication to mentorship and guidance has helped shape the next generation of engineers.


Awards and HonorsΒ 


Jurgita MalaiΕ‘kienΔ—’s contributions to the field of civil engineering have been recognized through various awards and honors. She received the Young Researcher Award from the Lithuanian Academy of Sciences for her innovative work on sustainable materials. Additionally, her research projects have been funded by national grants aimed at promoting environmental sustainability in construction. Jurgita has been invited to present her findings at numerous international conferences, where she has received accolades for her insightful contributions to discussions on recycling and waste management in civil engineering. Her commitment to excellence in research and education continues to inspire her peers and students alike.


Research Focus


Jurgita MalaiΕ‘kienΔ—’s research primarily focuses on the utilization of industrial waste materials in construction, particularly in the context of concrete durability and sustainability. She explores the effects of various by-products, such as fly ash, slag, and recycled glass, on the mechanical properties and longevity of cementitious materials. Her work aims to innovate recycling methods that enhance the performance of construction materials while minimizing environmental impact. Jurgita also investigates the microstructural changes that occur when integrating waste materials into concrete mixtures, aiming to develop more resilient and eco-friendly building solutions. Through her research, she contributes significantly to advancing sustainable practices within the civil engineering sector.


Publication Top Notes


    

  • The Influence of Silica Fly Ash and Wood Bottom Ash on Cement Hydration and Durability of Concrete 🌿
    • 

  • Possibilities to Recycle Thermal Power Plant By-Products in Refractory Castables ♻️
    • 

  • Impact of Electronic Waste Glass on the Properties of Cementitious Materials πŸ’»
    • 

  • Lightweight composite materials made of paper sludge and corn starch πŸ“„
    • 

  • A Study on the Microstructure and Mechanical Properties of Portland Cement Incorporating Aluminosilicate Waste πŸ”
    • 

  • Influence of Industrial Waste Pozzolanic Additives on the Structure and Properties of Expanded Glass Granules Cement-Based Composite πŸ—οΈ
    • 

  • The Metakaolin Waste Effect on the Physical and Mechanical Properties of High-Performance Concrete βš™οΈ
    • 

  • Effect of Low Oxidation Graphene Oxide on Physical and Mechanical Properties of MCC Type Refractory Castable πŸ§ͺ
    • 

  • Analysis of the Structure and Durability of Refractory Castables Impregnated with Sodium Silicate Glass 🧱
    • 

  • Bio-colonization layered concrete panel for greening vertical surfaces: A field study 🌱
    • 



Conclusion


Jurgita MalaiΕ‘kienΔ— is a deserving candidate for the Best Researcher Award. Her pioneering work in sustainable construction materials, coupled with her robust publication record and collaborative spirit, positions her as a leader in her field. By addressing areas for improvement, such as enhancing her international presence and mentoring, she can continue to advance her research and contribute significantly to the global scientific community. Recognizing her achievements through this award would not only honor her contributions but also inspire others in the field.

	


	

	






	
	

		


Ping	Liu | Materials Science | Best Researcher Award
			

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Mr. Ping Liu | Materials Science | Best Researcher Award


Ping Liu at Chongqing Jiaotong University, China


Liu Ping is a distinguished Lecturer and Doctor of Transportation Engineering at Chongqing Jiaotong University’s College of Aviation. He serves as the deputy director of the Chongqing Key Laboratory of Green Aviation Energy Power and is an active young member of the Prediction and Health Management Branch of the Chinese Aviation Society. With over 20 national invention patents and more than 10 published academic papers, Liu is dedicated to advancing the fields of aero-engine manufacturing and rotary engine technology. His research emphasizes innovation and practical applications, contributing significantly to sustainable aviation solutions.


Profile:


Scopus Profile


Strengths for the Award:


    

  1. Extensive Research Output: Liu Ping has published over 10 academic papers and holds more than 20 national invention patents. This demonstrates a high level of productivity and innovation in his field, particularly in aero-engine manufacturing and rotary engine technology.
    2. 

  2. Specialization in Transportation Engineering: As a Doctor of Transportation Engineering and a lecturer at a reputable university, Liu Ping’s academic credentials are solid. His role as deputy director of a key laboratory further emphasizes his leadership and expertise in green aviation energy power.
    3. 

  3. Interdisciplinary Collaboration: Liu’s involvement in various projects, including dynamic service composition in manufacturing and health management in aviation, indicates an ability to collaborate across disciplines, which is essential in today’s research environment.
    4. 

  4. Contribution to Innovation: The number of patents obtained showcases Liu Ping’s focus on practical applications of research, which is vital for the advancement of technology and industry practices.
    5. 

  5. Involvement in Professional Societies: As a young member of the Prediction and Health Management Branch of the Chinese Aviation Society, he demonstrates engagement with the broader research community, contributing to discussions that shape future directions in aviation technology.
    6. 



Areas for Improvement:


    

  1. Broader Research Impact: While Liu Ping has a significant number of patents and papers, increasing the visibility and impact of his research through more high-profile publications or collaborations with industry leaders could enhance his recognition in the field.
    2. 

  2. Engagement in Public Discourse: Liu could benefit from participating in public forums, workshops, and conferences to disseminate his research findings more widely, fostering greater community engagement and awareness of his work.
    3. 

  3. Mentoring and Guidance: Expanding his role in mentoring junior researchers or students could enhance the academic environment at Chongqing Jiaotong University and help cultivate the next generation of transportation engineers.
    4. 

  4. Interdisciplinary Research: While Liu has shown a capacity for interdisciplinary work, exploring collaborations with fields such as environmental science or economics could open new avenues for innovative research that addresses broader societal challenges.
    5. 



Education:


Liu Ping obtained his Doctorate in Transportation Engineering from a prominent university, where he focused on the technological advancements in aviation and energy systems. His rigorous academic training laid the foundation for his expertise in aero-engine manufacturing. He also holds a Master’s degree in a related engineering discipline and a Bachelor’s degree in Transportation Engineering. Throughout his education, Liu honed his research skills and developed a strong analytical framework that continues to guide his work in the field.


Experience:


With extensive experience in academia and research, Liu Ping has been a key figure in the College of Aviation at Chongqing Jiaotong University. In his role, he not only teaches but also leads research initiatives aimed at technological innovation in aviation. His position as deputy director of the Chongqing Key Laboratory of Green Aviation Energy Power allows him to influence and direct critical projects in green aviation technology. Liu has collaborated with various industries and academic institutions, enhancing his understanding of practical applications in transportation engineering.


Research Focus:


Liu Ping’s research primarily centers on aero-engine manufacturing, focusing on the technological innovation and application of rotary engines. He explores sustainable energy solutions in aviation, aiming to enhance efficiency and reduce environmental impact. His work in the Chongqing Key Laboratory of Green Aviation Energy Power emphasizes the integration of cutting-edge technologies in the aviation sector. Liu’s commitment to innovation is evident in his numerous patents and publications, which aim to bridge the gap between theoretical research and real-world applications in transportation engineering.


Publication Top Notes:


    

  • A new car-following model with consideration of anticipation driving behavior
    • 

  • Fast threshold selection for grayscale images based on two-dimensional fuzzy renyi’s entropy and quantum genetic algorithm
    • 

  • A self-adaptive dynamic service composition and optimization framework for manufacturing resources
    • 

  • Two-step and likelihood methods for HIV viral dynamic models with covariate measurement errors and missing data
    • 

  • Analysis of longitudinal and survival data: Joint modeling, inference methods, and issues
    • 

  • An unexpected triammine(oxalato)platinum(II) complex obtained from the aqueous solution of tetraammineplatinum(II) oxalate
    • 

  • Study of monostatic and bistatic polarimetric scattering from the two-dimensional Gauss rough surface characterized by textures
    • 

  • Image quality evaluation based on contrast sensitivity function
    • 

  • Ultrasonic micro-flow measurement based on improved phase-difference method
    • 

  • The research on the new ultra-precision polishing instrument of the internal surface in the elbow
    • 



Conclusion:


Liu Ping is a strong candidate for the Best Researcher Award due to his impressive research output, significant contributions to the field of transportation engineering, and active engagement in the academic community. By addressing areas for improvement, particularly in expanding the reach and impact of his research, he could further solidify his position as a leading figure in transportation engineering and innovation. His commitment to advancing technology, combined with a focus on practical applications, positions him well for future accolades and contributions to the field.

	


	

	






	
	

		


Ms.Elke Wuyts| Materials Science | Best Researcher Award
			

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Ms.Elke Wuyts| Materials Science | Best Researcher Award


Mehrshad Asghari at School of Mining Engineering, University college of Engineering, University of Tehran, Iran


Elke Wuyts is an accomplished researcher and educator in the field of [specific field, e.g., environmental science, ecology], known for her dedication to [specific areas of focus, e.g., sustainability, conservation]. With a strong academic background and practical experience, she is committed to addressing pressing environmental challenges through innovative research and community engagement. Elke’s work has positively impacted [mention relevant sectors, e.g., environmental policy, conservation strategies].


Profile:


Scopus Profile


Strengths for the Award:


    

  • Robust Academic Background:

      

    • The individual holds a Ph.D. in Design from the Illinois Institute of Technology, which indicates a strong theoretical foundation in design and innovation.
      • 

    • Additional degrees (M.Pd and B.S.) in relevant fields highlight a well-rounded educational background.
      • 

    

    • 

  • Extensive Teaching Experience:

      

    • The candidate has held numerous academic positions, including Chair Professor and Dean at Asia University, and has been a Distinguished Professor at National Cheng Kung University.
      • 

    • Their diverse teaching roles at various prestigious institutions show a commitment to education and mentorship in design and innovation.
      • 

    

    • 

  • Leadership Roles:

      

    • Serving in leadership positions, such as Chair of the Department of Industrial Design and Director of the Institute of Creative Industry Design, demonstrates strong management skills and the ability to influence academic programs and curricula.
      • 

    

    • 

  • Research Specialization:

      

    • Specializations in innovation planning, cultural and creative industries, and industrial design indicate a focus on areas that can significantly impact communities through design-led initiatives.
      • 

    • Their involvement in event planning and audience research aligns with community engagement and outreach efforts.
      • 

    

    • 



Areas for Improvement:


    

  • Publications and Research Output:

      

    • While the individual has extensive experience, showcasing a more substantial portfolio of published research could strengthen their application for the Best Researcher Award.
      • 

    • Engaging in collaborative research projects focused on community issues may enhance visibility and impact.
      • 

    

    • 

  • Community Engagement Initiatives:

      

    • Actively participating in or leading community-focused projects or workshops could demonstrate a direct impact on the community, making a stronger case for the Community Impact Award.
      • 

    • Developing initiatives that involve students and local stakeholders can foster community engagement.
      • 

    

    • 

  • Grant Acquisition:

      

    • Pursuing research grants aimed at community-based projects can enhance their profile for both awards by demonstrating their ability to secure funding for impactful initiatives.
      • 

    

    • 



Education:


    

  • Elke Wuyts earned her Bachelor’s degree in [specific field, e.g., Biology, Environmental Science, or a related discipline] from [University Name], where she developed a strong foundation in [mention core subjects, e.g., ecology, microbiology, or conservation]. She then pursued her Master’s degree at [University Name], specializing in [specific area of study, e.g., sustainable development, environmental management]. Her academic endeavors culminated in a PhD in [specific field] from [University Name], focusing on [specific research focus or dissertation topic], equipping her with advanced knowledge and research skills in her area of expertise.
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Experience:


    

  • Elke has over [number] years of experience in [specific field or industry, e.g., environmental science, research, or academia]. She currently serves as [current position, e.g., Research Scientist, Lecturer] at [Institution/Company Name], where she leads projects on [mention specific responsibilities or research areas, e.g., ecological conservation, climate change]. Prior to this role, she held positions at [mention previous companies or institutions], where she contributed to significant initiatives in [mention relevant areas, e.g., environmental policy, biodiversity studies].
    • 



Skills:


    

  • Elke possesses a diverse skill set, including expertise in [mention specific skills, e.g., data analysis, field research, environmental modeling]. She is proficient in using [specific software or tools, e.g., GIS, R, or statistical analysis software], and her strong communication skills enable her to effectively convey complex scientific concepts to diverse audiences. Her collaborative abilities are complemented by her project management experience.
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Research Focus:


    

  • Elke’s research primarily focuses on [mention key areas, e.g., ecological conservation, climate change adaptation, biodiversity]. She aims to tackle challenges related to [specific issues, e.g., habitat loss, environmental degradation], and her work seeks to develop evidence-based strategies for promoting sustainability and resilience in ecosystems. Through her research, Elke aspires to make meaningful contributions to the understanding and protection of our natural environment.
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  • 



PublicationsΒ 


    

  1. 



Conclusion:


    

  • In conclusion, this candidate is well-suited for both the Research for Community Impact Award and the Best Researcher Award due to their extensive academic qualifications, leadership experience, and research specialization. To strengthen their candidacy further, they could focus on increasing their publication output, enhancing community engagement efforts, and pursuing research grants. With their current trajectory and contributions, they have the potential to make a significant impact in their field and the communities they serve.
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Mehrshad Asghari | Materials Science | Best Researcher Award
			

				Posted on  by ScienceFather			

		
	


	

		
 Dr. Mehrshad Asghari | Materials Science | Best Researcher Award


Mehrshad Asghari at School of Mining Engineering, University college of Engineering, University of Tehran, Iran


Dr. Mehrshad Asghari is a seasoned Senior Mineral Processing Engineer with over a decade of experience in optimizing iron and copper ore processing. Specializing in magnetic separation, gravity, and flotation tests, he has led innovative projects in mineral processing circuits. As head of the mineral processing department in Tehran, he excels in the design, modeling, and simulation of processing equipment, employing advanced techniques such as Discrete Element Method (DEM) and Finite Element Method (FEM). Dr. Asghari is currently pursuing a PhD in Mineral Processing Engineering at Tehran University, where he combines academic rigor with practical applications to enhance ore recovery and sustainability. With seven ISI articles and numerous conference papers, his research significantly contributes to the field.


Profile:


Scopus Profile


Strengths for the Award:


    

  1. Expertise in Mineral Processing: The individual has a strong background in mineral processing, with specific expertise in magnetic separation, gravity, and flotation tests for iron and copper ores. This technical depth is crucial for research excellence.
    2. 

  2. Advanced Academic Credentials: Currently pursuing a PhD in mineral processing engineering, they demonstrate commitment to continuous learning and research.
    3. 

  3. Proven Research Contributions: With seven ISI articles and four conference papers, their active engagement in publishing research shows a significant contribution to the field. The topics cover both theoretical and practical aspects of mineral processing, indicating a balanced approach.
    4. 

  4. Innovative Use of Technology: Specialization in Discrete Element Method (DEM) and Finite Element Method (FEM) showcases their ability to leverage advanced modeling techniques to improve processing efficiency, as evident from their recent publications.
    5. 

  5. Comprehensive Experience: Having held leadership roles (Head of Laboratory and Head of Department) for over a decade, they have extensive practical experience in all stages of mineral processing engineering, from design to optimization.
    6. 

  6. Collaborative Work: Their collaborations with other researchers and institutions demonstrate teamwork and an ability to integrate diverse perspectives into their work.
    7. 

  7. Professional Certifications: Being a course trainer indicates their dedication to education and knowledge dissemination, which is valuable for fostering future researchers.
    8. 



Areas for Improvement:


    

  1. Broader Impact: While the technical contributions are significant, focusing on how their research impacts industry practices or environmental sustainability could enhance their recognition.
    2. 

  2. Networking: Increased participation in international conferences and collaborations could broaden their visibility and influence in the field.
    3. 

  3. Public Engagement: Engaging with non-academic audiences through workshops or community outreach can help translate research findings into practical applications, further elevating their profile.
    4. 

  4. Diversification of Research Topics: Exploring interdisciplinary research that combines mineral processing with other fields, such as environmental science or materials engineering, could lead to innovative solutions and broaden the scope of their work.
    5. 



Education:


Dr. Mehrshad Asghari is pursuing a PhD in Mineral Processing Engineering at Tehran University, expected to complete in 2024. His academic journey underscores a deep commitment to advancing knowledge in the field of mineral processing. He has previously acquired a Master’s degree in the same discipline, equipping him with a solid foundation in both theoretical and practical aspects. His ongoing research focuses on optimizing processing techniques for iron and copper ores, with a particular interest in utilizing Discrete Element Method (DEM) and Finite Element Method (FEM) for simulation and modeling. Dr. Asghari’s educational background is complemented by certifications in specialized mining software and as a course trainer in mineral processing, showcasing his dedication to continuous learning and knowledge dissemination within the mining and minerals sector.


Experience:


Dr. Mehrshad Asghari has held prominent positions in the field of mineral processing since 2011. He began his career as the Head of the Mineral Processing Laboratory in Tehran, where he conducted essential tests in magnetic separation, gravity, and flotation to optimize plant designs. In 2013, he was promoted to Head of the Mineral Processing Department, where he oversaw comprehensive modeling, simulation, and design documentation for various mineral processing plants. His experience spans all stages of mineral processing engineering, from laboratory experiments to industrial plant operations. Dr. Asghari’s leadership and technical expertise have facilitated significant advancements in processing efficiency and ore recovery. His commitment to innovation is evident in his application of advanced modeling techniques and continuous optimization efforts in mineral processing practices.


Research Focus:


Dr. Mehrshad Asghari’s research focus centers on enhancing the efficiency of mineral processing techniques, particularly for iron and copper ores. His work leverages advanced simulation methods, including Discrete Element Method (DEM) and Finite Element Method (FEM), to analyze and improve processing circuits. Recent studies include optimizing roller screen efficiency for green iron pellets and investigating the elastoplastic behavior of these materials during classification. Dr. Asghari is also dedicated to understanding the relationship between operational parameters and product shape properties in industrial milling. His contributions address critical issues in flotation kinetics, with research aimed at improving copper recovery in industrial circuits. By exploring innovative processing methods, he aims to contribute to sustainable mining practices and environmental protection. Through his publications and ongoing research, Dr. Asghari seeks to bridge the gap between theory and practice in mineral processing engineering.


Publications Top Notes:


    

  1. Improving the roller screen efficiency to classify green iron pellets using DEM simulation, novel roll design and implementing banana configuration πŸ“ˆ
    2. 

  2. Implementation of DEM to calibrate contact parameters, as a novel simulation of the elastoplastic behavior of green iron pellet classified by roller screen πŸ“Š
    3. 

  3. Investigation of cigarette effect and elastic-plastic behavior of green iron pellets on the roller screen efficiency πŸ”
    4. 

  4. Relationship among operational parameters, ore characteristics, and product shape properties in an industrial SAG mill βš™οΈ
    5. 

  5. Analysis of kinetic models for chalcopyrite flotation: effect of operating parameters πŸ“‰
    6. 

  6. Copper recovery improvement in an industrial flotation circuit: A case study of Sarcheshmeh copper mine πŸ—οΈ
    7. 

  7. Recovery of coal particles from a tailing dam for environmental protection and economical beneficiations 🌍
    8. 



Conclusion:


In conclusion, the individual demonstrates exceptional qualifications and achievements that align well with the criteria for the Best Researcher Award. Their expertise, innovative research, and leadership in the field of mineral processing engineering position them as a strong candidate. By addressing areas for improvement, they could further enhance their contributions and visibility in the research community, ultimately strengthening their candidacy for this award.

	


	

	






	
	

		


Ifeyinwa Ijeoma Obianyo – Materials Science and Engineering – Women Researcher Award
			

				Posted on  by ScienceFather			

		
	


	

		



	
Ifeyinwa Ijeoma Obianyo - Materials Science and Engineering - Women Researcher Award


Nile University of Nigeria Abuja Nigeria - Nigeria


AUTHOR PROFILE


SCOPUS


GOOGLE SCHOLAR


IFYENIWA IJEOMA OBIANYO πŸ‘·β€β™€οΈ


Ifeyinwa Ijeoma Obianyo is a dedicated Civil Engineer and Materials Scientist, specializing in the strength of materials and sustainable binders. With extensive expertise in low-carbon concrete, waste valorization, and eco-friendly building materials, she is committed to advancing sustainable construction practices. Her research is driven by a desire to innovate within the field of civil engineering, focusing on mechanical properties of construction materials that contribute to greener building solutions.


ACADEMIC AND RESEARCH EXCELLENCE πŸ“š


Currently a Lecturer and Researcher at Nile University of Nigeria, Ifeyinwa's academic journey has been marked by significant contributions to the field of civil engineering. She coordinates M.Eng. theses and actively engages in research that combines practical applications with theoretical knowledge. Her work not only addresses contemporary challenges in construction materials but also enhances the educational experiences of her students through innovative teaching methodologies.


PROJECT MANAGEMENT SKILLS πŸ“Š


In her role as a Project Manager and Supervisor, Ifeyinwa oversees various research projects, ensuring they meet both academic and industry standards. Her leadership skills enable her to guide teams effectively, fostering collaboration and promoting a culture of excellence. By managing diverse projects, she helps to translate research findings into real-world applications, impacting the construction industry positively.


CONFERENCE PARTICIPATION 🎀


Ifeyinwa is an active participant in international conferences and technical sessions, where she presents her research findings and engages with fellow researchers. Her presentations focus on sustainable practices in civil engineering, showcasing advancements in materials science that contribute to eco-friendly construction. Through these platforms, she shares her knowledge and builds networks that further her research impact.


PUBLICATIONS AND EDITORIAL ROLES πŸ“


As an author and reviewer for Scopus-indexed journals, Ifeyinwa contributes significantly to the body of knowledge in her field. She serves as an Editorial Assistant for the Nile Journal of Engineering and Applied Science, ensuring the quality and integrity of published research. Her publication record reflects her commitment to advancing scientific understanding and promoting sustainable engineering practices.


STEM OUTREACH INITIATIVES 🌱


Passionate about education and community engagement, Ifeyinwa facilitates Science Outreach Programmes and STEM projects aimed at inspiring the next generation of engineers. Through her outreach efforts, she emphasizes the importance of sustainable practices in engineering and motivates young minds to pursue careers in the sciences. Her dedication to fostering interest in engineering among youth highlights her commitment to building a more sustainable future.


FUTURE VISION 🌍


Ifeyinwa envisions a future where sustainable materials dominate the construction industry, significantly reducing the carbon footprint of buildings. She aims to continue her research on innovative materials and methods, contributing to the development of low-carbon solutions. Through her work, she aspires to lead the charge toward a more sustainable and resilient built environment, making a lasting impact in the field of civil engineering.


NOTABLE PUBLICATION


Title: Decision Tree Regression vs. Gradient Boosting Regressor Models for the Prediction of Hygroscopic Properties of Borassus Fruit Fiber

Authors: A.A. Mahamat, M.M. Boukar, N. Leklou, T.T. Stanislas, H. Savastanos

Year: 2024

Journal: Applied Sciences (Switzerland), 14(17), 7540


Title: A Machine Learning Led Investigation Predicting the Thermos-mechanical Properties of Novel Waste-based Composite in Construction

Authors: A.A. Mahamat, M.M. Boukar, N. Leklou, N.M. Ibrahim, H. Savastano

Year: 2024

Journal: Waste and Biomass Valorization, 15(9), pp. 5445–5461


Title: Multi-objective Optimization of the Flow Condition of Binary Constituent Net-zero Concretes Towards Carbon Neutrality-built Environment Pathway

Authors: C. Garcia, K.C. Onyelowe, P.E. Valverde Aguirre, A.A. Baig Moghal, L.U. Stephen

Year: 2024

Journal: Journal of Building Pathology and Rehabilitation, 9(1), 60


Title: Evaluation of Predictive Models for Mechanical Properties of Earth-Based Composites for Sustainable Building Applications

Authors: I.I. Obianyo, A.P. Onwualu, A.A. Mahamat

Year: 2024

Book Chapter: Studies in Systems, Decision and Control, 547, pp. 179–190


Title: The Influence of Fines on the Hydro-mechanical Behavior of Sand for Sustainable Compacted Liner and Sub-base Construction Applications

Authors: K.C. Onyelowe, A.M. Ebid, S. Hanandeh, L.U. Stephen, O.A. Ubachukwu

Year: 2024

Journal: Asian Journal of Civil Engineering, 25(1), pp. 623–635