Amin Jafari-Ramiani | Materials Science | Best Researcher Award

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Dr. Amin Jafari-Ramiani | Materials Science | Best Researcher Award

Assistant Professor at Amirkabir University of Technology (Tehran Polytechnic), Materials and Metallurgical Engineering, Iran.

🌍Amin Jafari-Ramiani is an Assistant Professor at Amirkabir University of Technology with a focus on computational materials engineering (CME), multiphase transport phenomena, non-equilibrium thermodynamics, and magnetohydrodynamics. He has been a certified scholar since 2002, with expertise in mathematical modeling and simulation of metallurgical processes such as casting, welding, and solidification. His research contributions extend to the development of software and tools like SENSE for industrial problem-solving, along with numerous publications and patents. His academic background and continuous drive for innovation position him as a strong candidate for the Best Researcher Award.

Profile👤

Education 🎓

🎓Amin Jafari-Ramiani completed his academic journey with a strong foundation in computational materials engineering. He earned his degrees from reputable institutions, with a particular focus on mathematical modeling and simulation in the context of industrial applications. His academic career has been marked by significant contributions to fields such as non-equilibrium thermodynamics and multiphase transport phenomena. His education equips him with the technical skills to address complex challenges in metallurgical processes and material engineering. Additionally, his interest in the philosophy of science and computational thinking enhances his approach to research and education, offering interdisciplinary insights to his students and collaborators.🧬🎓

Experience💼

🩺Amin Jafari-Ramiani has over two decades of experience in both academic and industrial projects. As an Assistant Professor at Amirkabir University of Technology, he has designed and delivered lectures in computational materials engineering, focusing on advanced topics such as casting, welding, solidification, and thermodynamics. He has led numerous research projects, resulting in the development of industrial solutions and publications in prestigious journals. His experience also extends to consulting in Computational Materials Engineering (CME), where he has worked on high-impact projects addressing real-world engineering challenges. In addition, he has contributed to the development of software tools like SENSE, which aids in solving complex metallurgical and material engineering problems. He is also active in various professional societies and has editorial responsibilities in academic journals.👨‍🔬🌍

Research Interests 🔬

🔬Amin Jafari-Ramiani’s research focuses on advancing Computational Materials Engineering (CME), with particular attention to the modeling and simulation of metallurgical processes such as casting, welding, and solidification. He also specializes in multiphase transport phenomena, non-equilibrium thermodynamics, and magnetohydrodynamics. His work seeks to improve the efficiency and accuracy of mathematical models in engineering applications, contributing to the development of innovative solutions for industrial problems. Jafari-Ramiani’s research aims to bridge the gap between theory and practical implementation, addressing complex challenges in materials engineering and supporting the development of more sustainable and efficient industrial processes. His contributions have significant implications for various sectors, including the metallurgical, energy, and manufacturing industries. 🌿🧪

Awards and Honors 🏆

🏆Amin Jafari-Ramiani has received various accolades for his work in Computational Materials Engineering. His contributions to the field of metallurgical process modeling, thermodynamics, and magnetohydrodynamics have been recognized through both academic and industry awards. His research papers have been widely cited, further cementing his status as a leading expert in his field. In addition to these academic honors, Jafari-Ramiani holds a patent for an industrial solution that addresses critical engineering challenges. His continuous collaboration with international scholars and professional organizations like the Iranian Society of Engineering Education, Iran Iron & Steel Society, and Iranian Foundrymen Society underscores his ongoing commitment to advancing the field of engineering. 🏆🎉

Conclusion 🔚 

Amin Jafari-Ramiani’s research excellence, diverse expertise, and innovative approach to computational materials engineering make him a remarkable candidate for the Best Researcher Award. His continuous contributions to academia and industry highlight his commitment to pushing the boundaries of scientific knowledge and technological advancement.

Publications Top Notes 📚

Efficient energy absorption of functionally-graded metallic foam-filled tubes under impact loading
Authors: M Salehi, SMH Mirbagheri, A Jafari-Ramiani
Citations: 41
Year: 2021

Contribution of forced centreline convection during direct chill casting of round billets to macrosegregation and structure of binary Al–Cu aluminium alloy
Authors: DG Eskin, A Jafari-Ramiani, L Katgerman
Citations: 29
Year: 2011

Deformation Behavior and Crashworthiness of Functionally Graded Metallic Foam-Filled Tubes Under Drop-Weight Impact Testing
Authors: M Salehi, SMH Mirbagheri, A Jafari-Ramiani
Citations: 10
Year: 2020

Numerical modeling of macrosegregation during the direct-chill casting of an Al alloy billet
Authors: A Jafari-Ramiani, SH Seyedein, MR Aboutalebi, DG Eskin, L Katgerman
Citations: 10
Year: 2010

Numerical investigation of heat, flow and particle trajectory in A-TIG welding pool of 304L-SS
Authors: S Pourmand, A Jafari-Ramiani, A Ebrahimi
Citations: 8
Year: 2020

Experimental, theoretical, and numerical investigations into the compressive behavior of multi-layer metallic foam filled tubes
Authors: M Salehi, SMH Mirbagheri, A Jafari Ramiani
Citations: 7
Year: 2022

Modeling of heat transfer and solidification of droplet/substrate in microcasting SDM process
Authors: A Jafari-Ramiani, SH Seyedein, M Haghpanahi
Citations: 7*
Year: 2008

Phase change modelling with flexible source-based kinetics for non-equilibrium transitions
Authors: A Jafari-Ramiani
Citations: 6*
Year: 2020

Semi-implicit method for thermodynamically linked equations in phase change problems (SIMTLE)
Authors: A Jafari-Ramiani, SH Seyedein, MR Aboutalebi
Citations: 6
Year: 2011

Iterative standard strategy for non-linear optimization in melting furnace charge calculations
Authors: A Jafari-Ramiani, D Yousefi, M Mohajeri
Citations: 4
Year: 2021

 

 

Hong Li | Materials Science | Best Scholar Award

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Hong Li | Materials Science | Best Scholar Award

Associate Professor at Qingdao University, China.

Hong Li is an Associate Professor at Qingdao University, specializing in the fields of material science and photocatalysis. His research focuses on innovative solutions such as photogenerated cathodic protection of metals, graphene-modified semiconductor composites, and narrow bandgap semiconductor photocatalysis. These technologies are crucial for advancing renewable energy applications and enhancing the sustainability of materials in harsh environments. With multiple leadership roles in significant national and regional research projects, Hong Li has demonstrated a commitment to pioneering new materials with enhanced durability and efficiency under visible light. His work has been recognized through publications in SCI-indexed journals, and he has successfully secured funding for his research from various prestigious foundations. Despite the absence of a citation index or patents, Hong Li’s academic contributions mark him as a rising expert in his field, with a solid foundation in both theory and applied research.

📚 Profile

ORCID

🎓 Education

Hong Li holds an advanced academic background in material science and chemical engineering, although the specific details of his educational history are not provided. Given his expertise in graphene-modified semiconductor composites and photocatalysis, it is likely that his educational journey involved specialized study in chemical engineering, materials science, or a related field of applied physics. His deep understanding of photogenerated protection and photocatalysis suggests a strong foundation in interdisciplinary sciences, blending chemistry, physics, and engineering. The combination of his theoretical knowledge and practical research experience has positioned him well for his current academic role. His education has undoubtedly contributed to his ability to lead significant research projects and publish in high-impact journals, making him a respected figure in his areas of expertise.

💼 Experience

Hong Li brings extensive academic and research experience to his role as Associate Professor at Qingdao University. He has led several high-profile research projects, including those funded by the National Natural Science Foundation of China and the Shandong Provincial Key R&D Public Welfare Project. His experience in conducting and managing research spans the fields of photogenerated cathodic protection, semiconductor photocatalysis, and graphene-modified composites, positioning him at the forefront of innovation in materials science. Li’s practical involvement in securing competitive grants and publishing his findings in respected journals reflects his solid experience in academic leadership. However, his profile shows a lack of industry consultancy or patents, suggesting that his focus remains heavily on academic research and less on commercialization or industrial applications.

🔬 Research Interests

Hong Li’s research interests lie at the intersection of materials science and sustainable energy solutions. His primary focus is on the photogenerated cathodic protection of metals, an innovative approach to preventing corrosion using light-activated technologies. Additionally, he is deeply invested in the application of graphene-modified semiconductor composites, which hold potential for improving the efficiency of photocatalytic processes. Another area of his interest is narrow bandgap semiconductor photocatalysis, which can play a vital role in enhancing the efficiency of solar energy conversion and environmental protection technologies. By exploring these areas, Li aims to contribute to the development of durable, energy-efficient materials that can withstand challenging environmental conditions, thus advancing both academic knowledge and practical applications in renewable energy.

🏆 Awards and Honors

Throughout his career, Hong Li has garnered recognition for his contributions to scientific research. He has been awarded multiple research grants from prestigious organizations such as the National Natural Science Foundation of China, Shandong Natural Science Foundation, and the China Postdoctoral Science Foundation. These accolades reflect his ability to secure funding for cutting-edge research in materials science and photochemistry. His leadership in research has also been acknowledged through the successful completion of various high-impact projects, often serving as the project leader. While his profile does not list specific awards or honorary titles, the multiple competitive grants and funding opportunities he has received are a testament to his growing influence and success in his field. His work continues to push the boundaries of semiconductor photocatalysis and graphene-based materials.

🔚 Conclusion

Li Hong is a strong candidate for the Research for Best Scholar Award, especially in terms of scientific contributions to material science and photocatalysis. The candidate has a proven record of leading competitive research projects, publishing in high-impact journals, and obtaining notable grants. However, the absence of information on citation impact, industry collaborations, and patents could slightly weaken the profile. If these are not critical criteria for the award, Li Hong would be a well-qualified contender.

Publications Top Notes 📚

Title: Enhanced photocathodic protection performance of Co3S4 nanoparticles modified porous BiVO4 composites for 304 stainless steel
Year: 2025
Author: Hong Li
Citation: Materials Research Bulletin, DOI: 10.1016/j.materresbull.2024.113110

 

Title: Efficient photocathodic protection of nanoflower MgIn2S4-modified CNNs composites on 316 SS under visible light
Year: 2024
Author: Hong Li
Citation: Materials Research Bulletin, DOI: 10.1016/j.materresbull.2024.112694

 

Title: Enhancing photocathodic protection of Q235 carbon steel by co-sensitizing TiO2 nanotubes with CdIn2S4 nanogranules and WO3 nanoplates
Year: 2024
Author: Hong Li
Citation: Journal of Alloys and Compounds, DOI: 10.1016/j.jallcom.2023.173184

 

Title: Review on the Solar-Driven Photocathodic Protection of Metals in the Marine Environment
Year: 2024
Author: Hong Li
Citation: Coatings, DOI: 10.3390/coatings14030276

 

Title: Enhancing photocathodic protection with Bi quantum dots and ZIF-8 nanoparticle co-sensitized TiO2 nanotubes
Year: 2024
Author: Hong Li
Citation: Nanotechnology, DOI: 10.1088/1361-6528/ad0594

 

Title: CaIn2S4 nanosheets and SnO2 nanoflowers co-sensitized TiO2 nanotubes photoanode for continuous and efficient photocathodic protection of Q235 carbon steel
Year: 2024
Author: Hong Li
Citation: Journal of Alloys and Compounds, DOI: 10.1016/j.jallcom.2023.172570

 

Title: Preparation of ZIF-67/BiVO4 composite photoanode and its enhanced photocathodic protection performance of 316 SS under visible light
Year: 2023
Author: Hong Li
Citation: Journal of Alloys and Compounds, DOI: 10.1016/j.jallcom.2023.170926

 

Title: Highly Efficient Photocathodic Protection Performance of ZIS@CNNs Composites under Visible Light
Year: 2023
Author: Hong Li
Citation: Coatings, DOI: 10.3390/coatings13091479

 

Title: Efficient photocathodic protection performance of ZnIn2S4 nanosheets/SnO2 quantum dots/TiO2 nanotubes composite for 316 SS under visible light
Year: 2022
Author: Hong Li
Citation: Journal of Alloys and Compounds, DOI: 10.1016/j.jallcom.2022.166901

 

Title: Direct Z-scheme nanoporous BiVO4/CdS quantum dots heterojunction composites as photoanodes for photocathodic protection of 316 stainless steel under visible light
Year: 2022
Author: Hong Li
Citation: Applied Surface Science, DOI: 10.1016/j.apsusc.2022.154394