Shanakar Raman Dhanushkodi | Green electrolysis | Best Researcher Award

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Assoc Prof Dr. Shanakar Raman Dhanushkodi | Green electrolysis | Best Researcher Award

VIT, Vellore | India

Publication Profile

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ASSOC PROF DR. SHANKAR RAMAN DHANUSHKODI – A LEGACY IN CLEAN ENERGY RESEARCH AND EDUCATION ⚡🌍

INTRODUCTION 🌟

Assoc Prof Dr. Shankar Raman Dhanushkodi is a distinguished academic and researcher currently serving as an Associate Professor at the Vellore Institute of Technology (VIT), Vellore, Tamil Nadu, India. With more than two decades of experience, he has made significant contributions to the field of clean energy, specifically in fuel cell technology, electrolyzers, and the application of machine learning in energy systems. Dr. Dhanushkodi’s journey is marked by a blend of research excellence, academic contributions, and industry collaboration that continues to shape the future of energy solutions.

EARLY ACADEMIC PURSUITS 🎓

Dr. Dhanushkodi’s academic journey began in India, where he completed his Bachelor’s in Chemical Engineering from Alagappa College of Technology, Anna University, Tamil Nadu. He further pursued his Master’s in Process Systems Engineering at the University of Regina, Canada, and his Doctor of Philosophy in Chemical Engineering at the University of Waterloo, Canada. His academic foundation laid the groundwork for his pioneering research in electrochemical systems and fuel cell technologies.

PROFESSIONAL ENDEAVORS 💼

Dr. Dhanushkodi has held numerous prestigious positions across various academic and research institutions. His professional journey spans across countries, including India, Canada, and Germany. As an Associate Professor at VIT, he leads cutting-edge research in hydrogen technologies, focusing on fuel cells and electrolyzers. Additionally, he has served as a research consultant, postdoctoral fellow, and even founded his consulting company, Gandhi Energy Storage Systems and Solutions.

CONTRIBUTIONS AND RESEARCH FOCUS ON Green electrolysis 🔬

Dr. Dhanushkodi’s research expertise covers a wide range of areas such as electro-catalysis, membrane testing, fuel cell components, and the development of AI algorithms for chemical systems. His work in clean energy technologies is critical in advancing the efficiency and sustainability of energy systems. As a leading researcher, he has collaborated on global projects involving fuel cells and electrolyzers, while also contributing significantly to the development of diagnostic tools for electrochemical systems.

IMPACT AND INFLUENCE 🌍

Through his research and teaching, Dr. Dhanushkodi has not only contributed to the academic community but also impacted the global energy industry. His research has influenced the design and performance of fuel cells, electrolyzers, and other energy storage systems, helping to accelerate the transition to clean and sustainable energy sources. His collaborations with international institutions and industries have further reinforced his impact.

ACADEMIC CITATIONS AND PUBLICATIONS 📚

Dr. Dhanushkodi has authored over 15 publications in peer-reviewed journals, contributing to the advancement of knowledge in clean energy technologies and industrial ecology. His work is widely cited in the academic community, underlining the significance and relevance of his research. His focus on developing diagnostic tools for energy systems, particularly for PEM fuel cells and electrolyzers, continues to be a key area of innovation.

HONORS & AWARDS 🏆

Dr. Dhanushkodi’s excellence in research has been recognized through numerous awards and honors, including:

  • Raman Research Award for the paper in desalination and water treatment (2023)
  • Best Paper Award at the International Conference on Art, Education, and Business (2021)
  • Mrs. Chinnamaul Memorial Prize for the Best Technical Paper at CHEMCON (2021)
  • Outstanding Reviewer, Journal of Power Sources (2018)

LEGACY AND FUTURE CONTRIBUTIONS 🔮

Dr. Dhanushkodi’s work is far from over. As he continues to mentor young engineers at VIT and collaborate on international research projects, his legacy will undoubtedly inspire future generations. His ongoing research in fuel cell technology, electrolyzers, and machine learning applications in chemical engineering promises to yield groundbreaking solutions to the world’s energy needs. The future of clean energy is brighter, thanks to his vision and dedication.

FINAL NOTE 📌

Dr. Shankar Raman Dhanushkodi is not just a researcher; he is a mentor and a leader in the field of clean energy. His commitment to advancing energy systems and empowering the next generation of engineers and researchers has left an indelible mark on academia and industry alike. His contributions continue to inspire a future where sustainable energy solutions play a pivotal role in addressing global energy challenges.

 TOP NOTES PUBLICATIONS 📚

Development of Deep Learning Simulation and Density Functional Theory Framework for Electrocatalyst Layers for PEM Electrolyzers
    • Authors: Jaydev Zaveri; Shankar Raman Dhanushkodi; Michael W. Fowler; Brant A. Peppley; Dawid Taler; Tomasz Sobota; Jan Taler
    • Journal: Energies
    • Year: 2025
Machine Learning Framework for the Methyl Chloride Production Process
    • Authors: School of Mechanical Engineering, Vellore Institute of Technology; R. Gollangi; K. NagamalleswaraRao; Dhanushkodi Research group, School of Chemical Engineering, Vellore Institute of Technology; S. R. Dhanushkodi; Dhanushkodi Research group, School of Chemical Engineering, Vellore Institute of Technology; N. Mahinpey; Department of Chemical and Petroleum Engineering, University of Calgary
    • Journal: Journal of Environmental Informatics Letters
    • Year: 2024
Development of Semi-Empirical and Machine Learning Models for Photoelectrochemical Cells
    • Authors: Niranjan Sunderraj; Shankar Raman Dhanushkodi; Ramesh Kumar Chidambaram; Bohdan Węglowski; Dorota Skrzyniowska; Mathias Schmid; Michael William Fowler
    • Journal: Energies
    • Year: 2024
Development of Semi Empirical and Machine Learning Models for Photo-Electrochemical Cells
    • Authors: Niranjan Sunderraj; S.R. Dhanushkodi; Ramesh Kumar Chidambaram; B. Węglowski; Dorota Skrzyniowska; Mathias Schmid; Michael William Fowler
    • Journal: Preprint
    • Year: 2024
Design and Manufacturing Challenges in PEMFC Flow Fields—A Review
    • Authors: Prithvi Raj Pedapati; Shankar Raman Dhanushkodi; Ramesh Kumar Chidambaram; Dawid Taler; Tomasz Sobota; Jan Taler
    • Journal: Energies
    • Year: 2024

 

Kang Sun | metallic glass | Best Researcher Award

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Assist Prof Dr. Kang Sun | metallic glass | Best Researcher Award

shanghai university, China

Author Profile

Scopus

Early Academic Pursuits 🎓

Dr. Kang Sun’s academic journey began with a solid foundation in Materials Science and Engineering. He pursued his Ph.D. at Shanghai University from 2015 to 2021, where he focused on studying the microstructure and properties of metallic glasses under the guidance of Prof. Dr. Gang Wang. This period marked his deep dive into understanding the complex behavior of metallic materials and the factors influencing their structural integrity. Subsequently, Dr. Sun expanded his research scope internationally by enrolling in Technische Universität Dresden, Germany, where he undertook a CSC Ph.D. in Materials Engineering. His research at Dresden centered around the solidification behavior of metallic glasses, utilizing in-situ high-energy synchrotron radiation to explore their properties. His doctoral supervisors, Prof. Dr. Simon Pauly, mentored him as he gained proficiency in cutting-edge experimental techniques.

Professional Endeavors & Contributions 🧑‍🔬

Dr. Kang Sun’s professional career has been dedicated to advancing the field of metallic glasses and high-entropy alloys (HEA). As an Associate Professor at Shanghai University since October 2023, Dr. Sun’s work has pivoted to examining the structural evolution behavior and irradiation properties of metallic glasses and HEA under synchrotron radiation. His expertise and innovations have driven the exploration of these materials’ behavior under extreme conditions, a critical area of study in material science. Prior to this, he held a Post-doctoral position at Shanghai University, where he focused on the basic applications of metallic glasses, spanning from fundamental theory to practical implementations.

Research Focus & Impact 🌍

Dr. Sun’s primary research focus has been on the behavior of metallic glasses and high-entropy alloys under extreme conditions, such as synchrotron radiation and ion beam irradiation. His work contributes significantly to the understanding of the structural evolution and deformation mechanisms of these materials, both in laboratory and real-world applications. By exploring the ways metallic glasses respond to high-energy environments, Dr. Sun is providing invaluable insights into improving material performance for industrial applications, particularly in areas requiring durability under radiation. His research on the microstructure control and damage mechanisms of metallic glasses has implications in fields ranging from aerospace to energy.

Conference Presentations & Academic Outreach 📢

Dr. Sun has actively shared his findings at prominent international conferences, reflecting his role as a thought leader in the materials science community. Notable presentations include those at the MSE2024 Congress in Germany, the 9th International Discussion Meeting on Relaxation in Complex Systems in Japan, and the 18th Materials Science & Technology conference in Ohio, USA. His work has been showcased in various formats, from oral presentations to poster sessions, enabling him to contribute to the global conversation on metallic glass and HEA research. These appearances underline his dedication to scientific dialogue and collaborative innovation.

Funding & Grants 💰

Dr. Sun’s research has attracted significant funding, further validating his research’s potential to contribute meaningfully to the field. He has secured grants from prestigious institutions, such as the Open Project of Songshan Lake Laboratory, focusing on microstructure control and damage mechanisms in metallic glasses using light ion beam irradiation. His work is also supported by the National Natural Science Foundation of China Youth Fund, which backs research into radiation-induced structural evolution in metallic glasses. Dr. Sun’s ability to secure and manage these competitive grants demonstrates his research’s value and potential impact on both academic and industrial domains.

Technical Skills & Expertise 🛠️

Dr. Sun has mastered several technical skills that form the cornerstone of his research. His expertise in synchrotron radiation techniques, high-energy ion beam irradiation, and solidification processes in metallic glasses is a testament to his proficiency in experimental material science. Additionally, his ability to work with complex materials like metallic glasses and HEAs showcases his technical versatility. These skills have allowed him to develop innovative experimental setups and methodologies to study these materials under unique conditions, advancing the understanding of their behaviors and performance.

Teaching Experience 🏫

his academic roles, Dr. Sun has also been an educator, contributing to the academic development of future materials scientists. At Shanghai University, he has taught graduate-level courses and supervised Ph.D. students in their research. His mentorship extends beyond teaching theoretical concepts; he provides hands-on experience in experimental research and fosters an environment of critical thinking and innovation. Through his teaching, Dr. Sun is shaping the next generation of scientists and engineers, passing on his expertise in advanced material characterization techniques and cutting-edge research methodologies.

Legacy & Future Contributions 🔮

Dr. Sun’s contributions to the field of materials science, particularly in metallic glasses and HEAs, have already left a lasting impact. As his research evolves, he is poised to make even more significant contributions, particularly in the areas of radiation-resistant materials and their applications in critical industries such as nuclear energy and aerospace. His future work will likely focus on deepening the understanding of the irradiation effects on these materials and finding solutions to enhance their performance. As he continues his research, his legacy as a key figure in the field of advanced materials will undoubtedly grow, influencing both academic inquiry and industrial innovation.

Top Noted Publications 📖

Title: Substantially improved room-temperature tensile ductility in lightweight refractory Ti-V-Zr-Nb medium entropy alloys by tuning Ti and V content

Authors: Jia, Y., Li, G., Ren, C., Wang, G.

Journal: Journal of Materials Science and Technology

Year: 2025

Volume: 206

Pages: 234–247

Title: Accelerated discovery of Magnesium-based amorphous alloys through a property-driven active learning strategy
  • Authors: Ma, W., Liu, B., Lu, T., Sun, K., Zhang, A.
  • Journal: Journal of Materials Research and Technology
  • Year: 2024
  • Volume: 32
  • Pages: 4316–4322
Title: Microstructural stability and mechanical property of AlCrFeMoTi high-entropy amorphous alloy thin films under He+ ions irradiation
  • Authors: Ali, S., Ahmed, M., Liu, B., Jia, Y., Wang, G.
  • Journal: Surface and Coatings Technology
  • Year: 2024
  • Volume: 487
  • Pages: 130952
Title: Improved piezoelectric and luminescent properties in Sm-modified Bi0.5Na0.5TiO3–BaTiO3 multifunctional ceramics
  • Authors: Cheng, S., Zhang, K., Li, C., Rao, G., Shi, S.
  • Journal: Journal of Materiomics
  • Year: 2024
  • Volume: 10(4)
  • Pages: 803–810
Title: Effect of aging on corrosion resistance of (FeCoNi)86Al7Ti7 high entropy alloys
  • Authors: Wang, Y., Li, G., Li, H., Jia, Y., Wang, G.
  • Journal: Corrosion Science
  • Year: 2024
  • Volume: 227
  • Pages: 111717

Muhammad Ahsan Saleem | Additive Manufacturing | Best Researcher Award

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Mr. Muhammad Ahsan Saleem | Additive Manufacturing | Best Researcher Award

Nanjing University of Science and Technology , China

Professional Profile👨‍🎓

Early Academic Pursuits🎓

Muhammad Ahsan Saleem embarked on his academic journey in Mechatronics Engineering at the University of Engineering and Technology, Taxila, Pakistan, earning his Bachelor of Science degree in 2013. His passion for interdisciplinary studies led him to pursue a Master of Engineering in Mechanical Engineering at Nanjing University of Science and Technology, China, where he further advanced to a Doctor of Engineering in the same field. This strong foundation highlights his unwavering commitment to academic excellence and innovation.

Professional Endeavors 💼

Ahsan’s professional career spans roles in research and industry, blending technical expertise with practical applications. At Nanjing University of Science and Technology, he has been instrumental in project planning, performance metrics development, and leveraging machine learning to enhance experimental research. His tenure as a Mechatronics Engineer at Enginesound Automation Technology in Shanghai demonstrated his capability to design and implement cutting-edge solutions such as flexible bend control devices for textile machines and performance analysis tools for electric motors. Earlier, at Attock Refinery Limited, Pakistan, he contributed to HVAC systems’ compliance and operational efficiency.

Contributions and Research Focus🔬

Ahsan’s research contributions emphasize advancing 3D printing technologies and exploring innovative materials. His work on optimizing inkjet printing processes has led to significant improvements in dimensional precision and edge roughness. Additionally, his investigations into high-viscosity ink jetting behavior and the development of 3D-printed electrical resistors underscore his interdisciplinary approach. Projects like silicon carbide’s influence on selective laser processing and functional electronics printing further cement his role as a pioneer in material science and engineering.

Impact and Influence🌍

Through impactful research and professional achievements, Ahsan has influenced the fields of mechanical engineering and material science. His advancements in experimental design, coupled with data-driven methodologies, have contributed to new standards in precision manufacturing and electronics. His dedication to innovation fosters collaboration, driving significant contributions to engineering and technological progress globally.

Academic Cites and Technical Skills📜

Ahsan boasts a diverse technical skill set, ranging from programming (C++, Python, MATLAB) to simulation tools like SolidWorks and Simulink. His proficiency in machine learning and data analysis is evident in certifications from leading institutions, including Stanford University, IBM, and the University of Michigan. These skills are complemented by his expertise in microcontroller programming and platform integration using Raspberry Pi and Arduino.

Teaching and Mentorship Experience👨‍🏫

Ahsan’s dedication to academia extends beyond research, as evidenced by his volunteering roles. At the School of International Education, NJUST, he mentored freshmen and organized sports events, fostering a supportive environment for students. His involvement with the Environment Protection Society at UET highlights his commitment to community and educational outreach.

Legacy and Future Contributions

Ahsan’s ongoing endeavors in computer vision, image processing, and exploratory data analysis align with his vision to harness cutting-edge technologies for real-world impact. His interdisciplinary approach, combining mechanical engineering with data science and material innovation, sets a strong precedent for future contributions in sustainable technologies and precision engineering. He aspires to leave a lasting legacy as a researcher, mentor, and innovator driving advancements across industries.

Top Noted Publication 📖

  • Influence of Silicon Carbide on Direct Powder Bed Selective Laser Process (Sintering/Melting) of Alumina
    • Authors: Rehman, A.U., Saleem, M.A., Liu, T., Pitir, F., Salamci, M.U.
    • Journal: Materials
    • Year: 2022
  • Quantized Event-triggered Feedback Control under Fuzzy System with Time-varying Delay and Actuator Fault
    • Authors: Aslam, M.S., Qaisar, I., Saleem, M.A.
    • Journal: Nonlinear Analysis: Hybrid Systems
    • Year: 2020