Jen-Taut Yeh | communication substrate materials | Best Researcher Award

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Prof.  MatSE Department/Hubei University, china

Prof. Jen-taut Yeh has established himself as a leading figure in the field of materials science and engineering, particularly in the areas of functional polymers, nanocomposite materials, and high-performance textiles. His academic journey, spanning several decades, has been marked by significant contributions to research, innovation, and education, positioning him as an influential scientist and educator in the global materials science community. Currently serving as a chair professor in the Department of Materials Science and Engineering (MatSE) at Hubei University in Wuhan, China, Prof. Yeh continues to lead cutting-edge research and mentor the next generation of scientists.

Professional Profiles:

Scopus

🌟 Prof. Jen-taut Yeh: A Distinguished Career in Materials Science

🎓 Academic Background

Prof. Jen-taut Yeh embarked on his illustrious academic journey with a Bachelor of Science (B.S.) in Chemical Engineering from National Taiwan University in 1981. His passion for polymers led him to pursue a Ph.D. in the polymer science program at the Department of Materials Science and Engineering (MatSE) at Penn State University, where he earned his degree in 1989. This solid foundation laid the groundwork for his future groundbreaking research in materials science.

🧪 Early Research Experience

After completing his Ph.D., Prof. Yeh spent six months as a Research Scientist at the MatSE Department of the University of Pennsylvania, working closely with Professor N. Brown. This period allowed him to further hone his research skills and gain valuable experience in the field of materials science, setting the stage for his future academic contributions.

👨‍🏫 Academic Career at NTUST

In 1990, Prof. Yeh returned to Taiwan and joined the faculty of the National Taiwan University of Science and Technology (NTUST) as an associate professor. His dedication to research and teaching earned him a promotion to full professor in the Department of Materials Science and Engineering in 1995. During his tenure at NTUST, Prof. Yeh made significant strides in the development of functional polymers and nanocomposite materials, contributing over 200 peer-reviewed publications to the scientific community.

🌍 Global Impact and Patents

Prof. Yeh’s research has had a profound impact on both academia and industry. As an inventor and co-inventor, he holds more than 35 patents, particularly in the areas of functional polymers, nanocomposite materials, and high-performance textiles. His innovations have led to advancements in various industries, including textiles, electronics, and biotechnology, making him a prominent figure in the field of materials science.

🏫 Leadership at Kun San and Hubei University

After retiring from NTUST in 2013, Prof. Yeh continued to contribute to academia as a chair professor in the MatSE Department at Kun San (Tainan, Taiwan) and later at Hubei University (Wuhan, China). In these roles, he has continued to lead research initiatives and mentor young scientists, ensuring the continued advancement of materials science.

📚 Legacy and Contributions

Prof. Yeh’s career is marked by a dedication to advancing knowledge in materials science. His contributions to functional polymers, nanocomposite materials, and high-performance textiles have left a lasting legacy in both research and practical applications. His work exemplifies the integration of scientific research with real-world innovation, making him a highly respected and influential figure in the global materials science community.

Strengths for the Award

  1. Extensive Research Contributions: Professor Yeh has authored over 200 peer-reviewed publications, showcasing a prolific and impactful research career in materials science and polymer engineering. His extensive body of work indicates a deep commitment to advancing knowledge in his field.
  2. Innovative Patents: With more than 35 patents related to functional polymers, nano-composite materials, and high-performance textiles, Professor Yeh has demonstrated significant innovation. These patents highlight his role in developing cutting-edge technologies that have practical applications in various industries.
  3. Diverse Expertise: His research spans functional polymers, nano-composites, and textiles, reflecting a broad and versatile expertise. This diverse focus is valuable for addressing complex problems in material science and engineering.
  4. International Experience: Having held prestigious positions at institutions in Taiwan and China, and experience as a Research Scientist at the University of Pennsylvania, Professor Yeh brings a global perspective and a wealth of international experience to his research.
  5. Long-Term Academic Influence: His academic career, including roles as an associate professor, professor, and chair professor, illustrates long-term influence and leadership in the field of materials science and engineering.

Areas for Improvement

  1. Recent Research Trends: While Professor Yeh has a strong historical track record, continuous adaptation to the latest research trends and emerging technologies is crucial. Keeping abreast of the latest developments in materials science and integrating them into his work could further enhance his contributions.
  2. Collaborative Research: Expanding collaborative efforts with researchers in emerging fields or interdisciplinary areas could lead to new innovations and applications. Collaborations with industry partners or researchers from other scientific disciplines might yield groundbreaking results.
  3. Research Impact Metrics: While the number of publications and patents is impressive, focusing on increasing the impact and citation of his work could strengthen his profile. Engaging more actively in high-impact journals or conferences might enhance his research visibility.

 

✍️Publications Top Note :

Poly(ether ketone ketone)/Silica Nanotubes Substrate Films:

Publication: Journal of Polymer Research, 2024, 31(2), 33.

Summary: This work explores the use of PEKK combined with silica nanotubes to create advanced substrate films suitable for 6G communication systems. The research highlights the material’s potential to enhance performance in high-frequency applications.

Poly(ether ketone ketone)/Hollow Silica Filler Substrates:

Publication: Polymer International, 2024.

Summary: Similar to the previous research, this study investigates PEKK substrates but with hollow silica fillers, focusing on improving material properties for 6G applications.

Fifth Generation (5G) Communication Materials

Poly(ether ketone ketone)/Modified Montmorillonite Substrate:

Publication: Macromolecular Research, 2022, 30(2), pp. 107–115.

Summary: This study focuses on substrates made from PEKK and modified montmorillonite for use in 5G communication technologies, examining how these materials can improve signal performance.

SiO2 Filled Functional Polypropylene Substrates:

Publication: Journal of Macromolecular Science, Part B: Physics, 2022, 61(6), pp. 696–718.

Summary: This research evaluates the performance of polypropylene substrates filled with SiO2 for 5G communication, focusing on functional properties that enhance communication efficiency.

Sustainable and Renewable Materials

ScCO2-Processed Thermoplastic Starch/Chitosan Oligosaccharide Blown Films:

Publication: Journal of Polymer Engineering, 2024.

Summary: This study investigates the use of supercritical CO2 (ScCO2) to process thermoplastic starch and chitosan oligosaccharides, producing blown films with oxygen barrier and antibacterial properties.

Fully Renewable Oxygen Barrier Films from ScCO2-Processed Thermoplastic Starch/Sugar Alcohol Blends:

Publication: Journal of Polymer Engineering, 2024.

Summary: The focus here is on creating oxygen barrier films from renewable resources, particularly thermoplastic starch and sugar alcohol blends, processed with ScCO2.

Renewable Thermoplastic Starch/Sugar Alcohol Blends:

Publication: Polymer Engineering and Science, 2024, 64(1), pp. 231–242.

Summary: This work continues the exploration of renewable thermoplastic starch blended with sugar alcohols, aiming to develop materials with practical applications in oxygen barrier technology.

Material Processing and Performance Enhancement

Effect of Supercritical CO2 and Alkali Treatment on Oxygen Barrier Properties:

Publication: Journal of Polymer Engineering, 2023, 43(10), pp. 833–844.

Summary: This article explores the impact of supercritical CO2 processing and alkali treatment on the oxygen barrier properties of thermoplastic starch/PVA films.

Micro Foaming of Glutaraldehyde/Hexametaphosphate/Thermoplastic Starch Foams:

Publication: Cellular Polymers, 2022, 41(3), pp. 119–143.

Summary: This research deals with the micro-foaming performance of thermoplastic starch foams modified with alkali treatment and montmorillonite nano-platelets, processed with ScCO2.

Advanced Fiber Materials

Multistage Drawing of ScCO2-Assisted UHMWPE/Activated Nanocarbon Fibers:

Publication: Journal of Polymer Research, 2022, 29(3), 78.

Conclusion

Professor Jen-Taut Yeh is a distinguished researcher with a substantial and impactful career in materials science. His extensive publication record, innovative patents, and diverse research interests are notable strengths. To further enhance his candidacy for the Best Researcher Award, focusing on current research trends, expanding collaborative efforts, and improving research impact metrics could be beneficial. His proven track record and ongoing contributions make him a strong contender for recognition in the field of materials science and engineering.

Kangkan Choudhury | Nanofluids | Excellence in Research

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Dr.  University of Science and Technology Meghalaya, India

Dr. Kangkan Choudhury, an Assistant Professor in Mathematics at the University of Science and Technology Meghalaya, holds a Ph.D. from Gauhati University. His research focuses on heat and mass transfer in Newtonian flows, with a significant emphasis on MHD flow and thermal diffusion. He has published numerous articles in UGC-approved and SCOPUS-indexed journals and contributed to book chapters in mathematics and statistics. His work has been presented at prestigious national and international conferences. With extensive teaching experience, Dr. Choudhury remains a dedicated academic, contributing significantly to applied mathematics research.

Professional Profiles:

Google scholar

🎓 Educational Qualification:

Ph.D. (Mathematics): Gauhati University (2019)Supervisor: Prof. Nazibuddin Ahmed, Ph.D., D.Sc.Title: Heat and Mass Transfer in some Newtonian Flows: A Theoretical InvestigationM.Sc. (Mathematics): Gauhati University (2012)B.Sc. (Mathematics): Gauhati University (2010)

💼 Work Experience:

PGT (Mathematics) at Sreeram Academy, Pathsala (01-02-2013 to 31-12-2014)Lecturer at Vidyasagar Academy, Dudhnoi (01-01-2015 to 31-12-2017)Assistant Professor at Dudhnoi College, Dudhnoi (01-01-2018 to 31-12-2019)Assistant Professor in the Department of Mathematics, University of Science and Technology Meghalaya (Current)

Strengths for the Award

  1. Extensive Research Contributions: Dr. Kangkan Choudhury has made significant contributions to the field of mathematics, particularly in heat and mass transfer, MHD (magnetohydrodynamics) flow, and porous media. His work includes numerous publications in reputable journals and conferences, showcasing a strong research profile.
  2. Diverse Publication Record: His research is well-documented through a variety of publications, including high-impact journals and book chapters. This demonstrates both breadth and depth in his research interests, from theoretical investigations to practical applications.
  3. Collaborative Work: Dr. Choudhury’s collaborations with prominent researchers such as Prof. Nazibuddin Ahmed reflect his ability to work effectively in research teams, which is a valuable trait for advancing scientific knowledge and fostering interdisciplinary approaches.
  4. Presentation Experience: His active participation in national and international conferences indicates a strong presence in the research community. Presenting papers at such events also highlights his commitment to sharing knowledge and engaging with other experts in his field.
  5. Educational Background and Work Experience: With a Ph.D. from Gauhati University and a solid work history in both teaching and research roles, Dr. Choudhury has a well-rounded academic and professional background. His role as an Assistant Professor and previous positions illustrate his dedication to both education and research.

Areas for Improvement

  1. Broader Impact and Citations: While Dr. Choudhury has published extensively, increasing the visibility and impact of his research through citations and collaborations with international researchers could further enhance his profile. Focus on publishing in high-impact journals and seeking out more collaborative opportunities might help.
  2. Interdisciplinary Research: Expanding research into interdisciplinary areas or emerging fields within applied mathematics could open up new avenues for impactful contributions. Exploring connections with other scientific domains may lead to innovative solutions and applications.
  3. Grant and Funding Acquisition: Actively seeking research grants and funding opportunities could support larger and more ambitious projects, leading to greater advancements in his field. Developing grant-writing skills and applying for competitive research funding would be beneficial.
  4. Public Engagement and Outreach: Engaging with a broader audience through public lectures, workshops, or popular science writing could help raise awareness of his research and its implications. This could also strengthen his position as a leading researcher in his field.

 

✍️Publications Top Note :

 

Heat and Mass Transfer in Three-Dimensional Flow Through a Porous Medium with Periodic Permeability
Authors: N Ahmed, K Choudhury
Journal: Heat Transfer—Asian Research
Volume: 48, Issue: 2, Pages: 644-662
Citations: 20
Year: 2019

Soret Effect on Transient MHD Convective Flow Past a Semi-Infinite Vertical Porous Plate with Heat Sink and Chemical Reaction
Authors: K Choudhury, N Ahmed
Journal: Applications and Applied Mathematics: An International Journal (AAM)
Volume: 13, Issue: 2, Page: 15
Citations: 12
Year: 2018

Diffusion-Thermo Effect on MHD Dissipative Flow Past a Porous Vertical Plate Through Porous Media
Authors: K Choudhury, S Agarwalla, N Ahmed
Journal: Heat Transfer
Volume: 51, Issue: 7, Pages: 6836-6855
Citations: 6
Year: 2022

Three Dimensional Hydromagnetic Convective Flow Past a Porous Vertical Plate with Sinusoidal Suction in Slip Flow Regime
Authors: N Ahmed, K Choudhury, K Chamuah
Journal: Mathematics in Engineering, Science & Aerospace (MESA)
Volume: 11, Issue: 4
Citations: 5
Year: 2020

Oscillatory Flow of a Viscous Conducting Fluid Through a Uniformly Moving Vertical Circular Cylinder Under Pressure Gradient
Authors: K Chamuah, N Ahmed, K Choudhury
Journal: Journal of Mathematical Computational Science
Volume: 11, Issue: 4, Pages: 4183-4202
Citations: 3
Year: 2021

Radiation Effect on MHD Flow Past a Porous Vertical Plate in the Presence of Heat Sink
Authors: K Choudhury, N Ahmed, K Chamuah
Journal: Heat Transfer
Volume: 51, Issue: 6, Pages: 5302-5319
Citations: 2
Year: 2022

Hydromagnetic Free Convective Flow Past a Vertical Plate Moving with Time Dependent Plate Velocity
Authors: N Ahmed, K Choudhury, S Agarwalla
Journal: Far East Journal of Applied Mathematics
Volume: 96, Issue: 6, Pages: 331-350
Citations: 2
Year: 2017

Hydromagnetic Convective Flow Past a Porous Vertical Plate with Constant Heat Flux and Heat Sink
Authors: K Choudhury, S Agarwalla
Journal: Mathematics in Engineering, Science & Aerospace (MESA)
Volume: 14, Issue: 2
Citations: 1
Year: 2023

Unsteady MHD Mass Transfer Flow Past a Temporarily Accelerated Semi-Infinite Vertical Plate in Presence of Thermal Diffusion with Ramped Wall Temperature
Authors: K Choudhury, N Ahmed
Journal: Mathematical Modelling of Engineering Problems
Volume: 6, Issue: 2
Citations: 1
Year: 2019

Unsteady MHD Free Convective Flow Past a Moving Vertical Plate in Presence of Heat Sink
Authors: K Choudhury, N Ahmed
Journal: Journal of Rajasthan Academy of Physical Sciences
Volume: 16, Issues: 1-2, Pages: 21-39
Citations: 1
Year: 2017

Thermo-Diffusion and Diffusion-Thermo Effects on MHD Convective Flow Past an Impulsively Started Vertical Plate Embedded in Porous Medium
Authors: K Choudhury, S Sharma, S Ahmed
Journal: East European Journal of Physics
Pages: 201-208
Year: 2024

Natural Convection MHD Mass Transfer Through an Infinite Vertical Porous Plate in the Existence of Radiation Embedded in Porous Medium
Authors: K Choudhury, S Sharma
Journal: Heat Transfer
Volume: 53, Issue: 3, Pages: 1031-1049
Year: 2024

MHD Free Convective Heat and Mass Transfer Flow Passing Through Semi-Infinite Plate for Cu-Water and TiO2-Water Nanofluids in Presence of Radiation
Authors: K Choudhury, S Sharma
Journal: ZAMM—Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik
Year: 2024

Mathematical Modelling of Engineering Problems
Authors: R Chaudhury, S Islam
Journal: Link
Volume: 8, Issue: 2, Pages: 179-188
Year: 2021

Chapter-10: Hydromagnetic Dissipative Flow Past a Porous Vertical Plate in Presence of Thermal Radiation
Authors: K Choudhury, N Ahmed
Book Name: Research Trends in Mathematics and Statistics
Publisher: Akinik Publications
ISBN: 978-93-90541-03-4
Pages: 133
Year: 2020

Heat and Mass Transfer in Some Newtonian Flows: A Theoretical Investigation
Author: C Kangkan
Location: Guwahati
Year: [Year not provided]

Conclusion

Dr. Kangkan Choudhury is a strong candidate for the Best Researcher Award, given his substantial contributions to mathematics and heat transfer research. His extensive publication record, collaboration with esteemed researchers, and active participation in conferences underscore his dedication and impact in the field. By focusing on increasing the visibility of his work, exploring interdisciplinary research, securing additional funding, and engaging with the public, Dr. Choudhury can further enhance his profile and contribute even more significantly to his field.

Dr. Rui Bao | Viscoelastic curing kinetics | Best Scholar Award

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Dr. Rui Bao | Viscoelastic curing kinetics | Best Scholar Award

Dr. Rui Bao, China university of petroleum Beijing, China

Dr. Rui Bao is a highly accomplished individual with a robust educational background and significant professional experience in mechanical engineering, particularly in the areas of composite materials and offshore engineering. She is currently pursuing her PhD at the China University of Petroleum (Beijing), with an expected graduation in December 2024. She also spent time as a visiting PhD student at Nanyang Technological University, where she specialized in strength failure analysis, composite flexible risers, and residual stress in manufacturing.

She holds a Master’s and Bachelor’s degree in Mechanical Engineering from the China University of Petroleum (East China), where she was recognized as an outstanding student and received first-class scholarships. Her undergraduate and graduate research focused on water injection columns, mechanical properties of packers, and other mechanical analyses.

Professionally, Dr. Đorđević worked as a Well Completion Engineering Assistant Engineer at COSL, where she was responsible for the CAD design and drafting of offshore wellhead components and the development and testing of packers. She has also led significant projects such as the NSFC general project on the strength failure analysis of flexible riser composite armored wire, showcasing her skills in materials and structural analysis, innovative design, and team collaboration.

With a deep understanding of composite materials, advanced computational modeling techniques, and a strong track record of academic and professional excellence, Dr. Đorđević is well-positioned to make significant contributions to the field of mechanical engineering and beyond.

 

Professional Profiles:

Orcid

🎓 Education

China University of Petroleum (Beijing)
Expected in Dec 2024
Nanyang Technological University
Visiting PhD Student, Mechanical EngineeringHonors: 🏅 Outstanding Graduate Student / 🥇 First-Class ScholarshipRelevant Directions:🛠️ Strength Failure Analysis⚙️ Composite Flexible Risers🔧 Residual Stress of Manufacturing (NSFC, general project)China University of Petroleum (East China)
Bachelor in Mechanical Engineering (09/2012 – 06/2016)Honors: 🏅 Excellent Graduate Cadres / 🥇 First-Class ScholarshipRelevant Directions:🚰 Water Injection Column📐 Mechanical Analysis🧩 Mechanical Properties of Packers (General project)Master in Mechanical Engineering (09/2016 – 06/2019)

🛠️ Work Experience

Well Completion Engineering Assistant Engineer – COSL (Jul 2019 – Aug 2020)Design and Drafting of Offshore Wellhead Components: ✏️ Responsible for the CAD design and drafting of key offshore wellhead components (packers and compensators), ensuring precise specifications and functional integrity to meet the demands of harsh offshore environments.Development and Testing of Packers: 🧪 Involved in the manufacturing and testing of packers in the processing workshop to ensure their mechanical and safety performance.

📊 Project Experience

Strength Failure Analysis of Flexible Riser Composite Armored Wire Considering Residual Stress (NSFC, general project) 2021‐Present

Comprehensive Materials and Structural Analysis Skills: 🧬 Proficient in composite material performance analysis and evaluation of the impact of residual stress on the integrity of composite armor line structures. Able to use advanced computational modeling techniques (such as finite element analysis) to simulate and optimize complex structures.Innovative Design and Performance Optimization Capability: 💡 Leveraging a deep understanding of composite materials and structural performance to innovate the design and optimization of flexible risers, improving their performance and reliability in marine engineering applications.Interdisciplinary Communication and Team Collaboration Skills: 🤝 Adept at collaborating across disciplines to achieve project goals efficiently. 

📖 Publications Top Note :

Thermo-Chemo-Mechanical Modeling of Residual Stress in Unidirectional Carbon Fiber-Reinforced Polymers during Manufacture