Jae-Do Nam | Functional polymer composites | Best Researcher Award

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Prof. Dr. Jae-Do Nam | Functional polymer composites | Best Researcher Award

Professor at  Sungkyunkwan University, South Korea

Jae-Do Nam is a Professor at the School of Chemical Engineering and Department of Polymer Science and Engineering at Sungkyunkwan University, Korea. He is also an adjunct Professor in the Department of Energy. Dr. Nam has contributed extensively to polymer science and engineering, focusing on sustainable and eco-friendly technologies. With over 260 peer-reviewed journal papers and 60 patents, he is a leading figure in his field. He collaborates with global corporations like Hyundai Motors, Samsung, and LG Chemicals.

Publication Profile

scholar

Education🎓📖

Dr. Nam earned a B.S. and M.S. in Chemical Engineering from Seoul National University in 1984 and 1986, respectively, and his Ph.D. in Chemical Engineering from the University of Washington in 1991.

Experience🏫🔬

Dr. Nam has served as a research associate faculty at the Polymeric Composites Laboratory at the University of Washington (1991-1993), and he joined Sungkyunkwan University in 1994. He held leadership roles as a department chairman and visiting professor at institutions including EPFL and the University of Washington.

Awards & Honors 🏆🌟

Dr. Nam has received numerous accolades, including leadership roles in key conferences, directorships in major research centers, and a prominent membership in the Korean Rheology Society. He has also been a member of advisory boards for various international scientific bodies.

Research Focus⚙️🔬

Dr. Nam’s research interests include polymer nanocomposites, electroactive actuators, biodegradable materials, and advanced fabrication methods for various applications in automotive and electronics industries. He is dedicated to eco-friendly and sustainable technological innovations.

Publication  Top Notes

 

Electrospun Dual-Porosity Structure and Biodegradation Morphology of Montmorillonite Reinforced PLLA Nanocomposite Scaffolds
YH Lee, JH Lee, IG An, C Kim, DS Lee, YK Lee, JD Nam – Biomaterials 26 (16), 3165-3172 (2005)
Citation: 391

Development of Soft-Actuator-Based Wearable Tactile Display
IM Koo, K Jung, JC Koo, JD Nam, YK Lee, HR Choi – IEEE Transactions on Robotics 24 (3), 549-558 (2008)
Citation: 355

Thermal and Mechanical Characteristics of Poly (L-lactic Acid) Nanocomposite Scaffold
JH Lee, TG Park, HS Park, DS Lee, YK Lee, SC Yoon, JD Nam – Biomaterials 24 (16), 2773-2778 (2003)
Citation: 340

Graphene/Cellulose Nanocomposite Paper with High Electrical and Mechanical Performances
ND Luong, N Pahimanolis, U Hippi, JT Korhonen, J Ruokolainen, … – Journal of Materials Chemistry 21 (36), 13991-13998 (2011)
Citation: 288

Hygroscopic Aspects of Epoxy/Carbon Fiber Composite Laminates in Aircraft Environments
HS Choi, KJ Ahn, JD Nam, HJ Chun – Composites Part A: Applied Science and Manufacturing 32 (5), 709-720 (2001)
Citation: 270

Enhanced Mechanical and Electrical Properties of Polyimide Film by Graphene Sheets via In Situ Polymerization
ND Luong, U Hippi, JT Korhonen, AJ Soininen, J Ruokolainen, … – Polymer 52 (23), 5237-5242 (2011)
Citation: 254

High Thermal Conductivity Epoxy Composites with Bimodal Distribution of Aluminum Nitride and Boron Nitride Fillers
JP Hong, SW Yoon, T Hwang, JS Oh, SC Hong, Y Lee, JD Nam – Thermochimica Acta 537, 70-75 (2012)
Citation: 243

Effect of PEG-PLLA Diblock Copolymer on Macroporous PLLA Scaffolds by Thermally Induced Phase Separation
H Do Kim, EH Bae, IC Kwon, RR Pal, J Do Nam, DS Lee – Biomaterials 25 (12), 2319-2329 (2004)
Citation: 196

Investigations on Actuation Characteristics of IPMC Artificial Muscle Actuator
K Jung, J Nam, H Choi – Sensors and Actuators A: Physical 107 (2), 183-192 (2003)
Citation: 180

Graphene Oxide Porous Paper from Amine-Functionalized Poly (Glycidyl Methacrylate)/Graphene Oxide Core-Shell Microspheres
J Oh, JH Lee, JC Koo, HR Choi, Y Lee, T Kim, ND Luong, JD Nam – Journal of Materials Chemistry 20 (41), 9200-9204 (2010)
Citation: 176

 

Conclusion

Dr. Jae-Do Nam stands out as a pioneer in polymer science and is an ideal candidate for the Best Researcher Award. His vast body of work, extensive publication record, leadership in high-impact research centers, and active participation in advancing polymer science on a global scale make him a standout figure in the field. His ability to bridge the gap between academia and industry, particularly in the areas of sustainability and advanced polymer applications, ensures that his research will continue to have a lasting impact. With his established record of success, Dr. Nam embodies the qualities of a transformative researcher deserving of this prestigious recognition.

Abdumutolib Atakhanov | Novel Acryloylated | Best Researcher Award

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Prof. Abdumutolib Atakhanov | Novel Acryloylated | Best Researcher Award

Director at ,Institute of Polymer Chemistry and Physics, Uzbekistan

Director of the Institute of Polymer Chemistry and Physics since 2024, this professor has over two decades of experience in polymer chemistry research. Their leadership roles include managing key projects and laboratories in nanomaterials, biopolymers, and macromolecular systems. They’ve been instrumental in advancing both fundamental and applied research in Uzbekistan and internationally. An active member of the International Union of Pure and Applied Chemistry (IUPAC), they’ve contributed to multiple international conferences and collaborations, driving innovations in polymer science. Their work bridges scientific inquiry with industrial applications, from nanofibers to biodegradable films.

Publication Profile

scholar

orcid

Education 🎓📚

Bachelor’s degree in chemistry from Tashkent State University (1996-1999), followed by a Master’s in macromolecular chemistry from the National University of Uzbekistan (2000-2001). Ph.D. from the Institute of Polymer Chemistry and Physics (2006), Doctor of Sciences (2016), and full professorship (2022). With extensive training in Uzbekistan and collaborative research travel to Reading University (UK) and A.V.Topchiev Institute (Russia), they’ve built a robust academic foundation that spans over two decades of polymer research.

Professional Experience

Current Director of the Institute of Polymer Chemistry and Physics (2024-present). Held leadership roles as Head of Laboratory (2018-2024), Scientific Secretary (2013-2017), and Project Manager since 2010. Began as a junior researcher and doctoral student (2001-2008), progressing into senior roles where they managed high-profile projects related to nanofibers, biodegradable films, and nanocellulose. Their expertise in polymer chemistry has positioned them as a leader in both academic and applied research, fostering innovation in Uzbekistan’s scientific community. 🧑‍🔬👩‍💼

Awards and Honors

Recipient of numerous accolades for contributions to polymer science, they’ve led successful national and international collaborations, earning recognition for pioneering biodegradable materials and nanofiber technologies. They are a regular invited speaker at international symposiums, sharing insights on biodegradable composites, nanocellulose, and polymer nanostructures. Editorial board member of Uzbekistan Journal of Polymers and Thematic Journal of Chemistry, their impact in the field is celebrated by peers worldwide. 🏅🌟

Research Focus 🔬

Specializes in the fundamental and applied aspects of polymer chemistry, particularly nanofibers, biodegradable materials, and nanocellulose. Their projects include hydrogen and photocurrent generation using conductive biopolymers, microcrystalline cellulose production, and biodegradable film technologies. They’ve explored the relationship between polymer structure and function, contributing valuable knowledge on nanocomposites and biopolymers. Their work bridges theoretical research and practical industrial applications, driving sustainable solutions in polymer science.

Publication  Top Notes

  • Physicochemical properties and antimicrobial activity of nanocomposite films based on carboxymethylcellulose and silver nanoparticles
    Kh.E. Yunusov, A.A. Sarymsakov, J.Z. Jalilov, A.A. Atakhanov
    Polymers for Advanced Technologies, 19, 2021.
  • Physicochemical studies of cotton cellulose and its derivatives containing silver nanoparticles
    K.E. Yunusov, A.A. Atakhanov, N.S. Ashurov, A.A. Sarymsakov, S.S. Rashidova
    Chemistry of Natural Compounds, 47, 415-418, 2011.
  • Isolation of nanocellulose from cotton cellulose and computer modeling of its structure
    A. Atakhanov, I. Turdikulov, B. Mamadiyorov, N. Abdullaeva, I. Nurgaliev, …
    Open Journal of Polymer Chemistry, 9(04), 117-129, 2019.
  • Comparative study of the physicochemical properties and structure of cotton cellulose and its modified forms
    A.A. Atakhanov, B. Mamadierov, M. Kuzieva, S.M. Yugai
    Chemistry of Vegetable Raw Materials, 3, 5-13, 2019.
  • Cotton cellulose, microcrystalline cellulose and nanocellulose: carboxymethylation and oxidation reaction activity
    S. Yuldoshov, A. Atakhanov, S. Rashidova
    Nano Sci. Nano Technol, 10(6), 106, 2016.
  • Preparation of oxidized nanocellulose by using potassium dichromate
    K. Makhliyo, A. Abdumutolib, S. Sirojiddin, A. Nurbek, Y. Khaydar, G. Jiang
    Cellulose, 30(9), 5657-5668, 2023.
  • Comparative studies of the sorption properties and capillary-porous structure of cellulose, microcrystalline cellulose, and nanocellulose
    A.A. Atakhanov, M.Y. Yunusov, A.A. Sarymsakov, S.S. Rashidova
    Chemistry of Vegetable Raw Materials, 45-48, 2012.
  • Physicochemical studies of the structure of chitosan and chitosan ascorbate nanoparticles
    N.S. Ashurov, S.M. Yugai, S.S. Shakhobutdinov, A.S. Kulumbetov, …
    Russian Chemical Bulletin, 71(2), 227-231, 2022.
  • Silver nanoparticles were formed on the polymer matrices and their bactericidal properties
    Y. Kh.E., A.A. Atakhanov, A.A. Sarymsakov, R. S.Sh, K.V. Lobanova
    Pharmaceutical Journal, 1, 55-59, 2010.
  • Obtaining and studying properties of biodegradable composite films based on polyethylene
    I.H. Turdikulov, B.N. Mamadiyorov, M.Q. Saidmuhammedova, A.A. Atakhanov
    Open Journal of Chemistry, 6(1), 030-036, 2020.
  • Rheological behavior of nanocellulose aqueous suspensions
    A.A. Atakhanov, A.A. Kholmuminov, B.N. Mamadierov, I.K. Turdikulov, …
    Polymer Science, Series A, 62, 213-217, 2020.
  • New low-silicate stabilizing systems for peroxide bleaching of cotton fibers
    A.A. Atakhanov, A.D. Tikhonovetskaya, D.S. Nabiyev, S.S. Rashidova
    Chemistry of Vegetable Raw Materials, 5-9, 2004.
  • Structure and thermal properties of chitin and chitosan from various sources
    N.S. Ashurov, M. Abdurazakov, S.M. Yugay, A.A. Atakhanov, K.A. Gulamjanov, …
    Journal of Physics: Conference Series, 2388(1), 012011, 2022.
  • Thermal and mechanical properties of polymer composites reinforced by sulfuric acid-hydrolyzed and tempo-oxidized nanocellulose: a comparative study
    M.I. Voronova, O.V. Surov, M.M. Kuziyeva, A.A. Atakhanov
    Izvestiya Vysших Uchebnykh Zavedeniy. Seriya “Khimiya i Khimicheskaya Tekhnologiya”, 4, 2022.
  • Biomedical polymers and perspectives of their creation
    A.A. Sarymsakov, Y. Kh.E., A.A. Atakhanov, R. S.Sh
    Pharmaceutical Journal, 3, 29-37, 2011.
  • Possibility of obtaining cotton cellulose by combined cooking and bleaching
    A.A. Atakhanov, A.D. Tikhonovetskaya, D.S. Nabiyev, S.S. Rashidova
    Chemistry of Vegetable Raw Materials, 23-26, 2004.
  • Sodium-Carboxymethylcellulose/Polyphenol-Gossypol-Carboxymethylcellulose Copolymer Films for Ocular Drug Delivery: Preparation and Physico-Chemical Properties
    S.S. Yunusov Kh., Sarymsakov A., Shukurov A., Todjiyev J., Atakhanov A., Guohua J.
    Asian Journal of Chemistry, 34(12), 3085-3092, 2022.
  • Comparative studies of the physicochemical properties and structure of cotton cellulose and its modified forms
    A.A. Atakhanov, B. Mamadiyorov, M. Kuzieva, S.M. Yugai, S. Shakhobutdinov, …
    Chemistry of Vegetable Raw Materials, 5-13, 2019.
  • Biodegradable Polyethylene-Based Composites Filled with Cellulose Micro-and Nanoparticles
    M.Q. Saidmuhammedova, I.H. Turdikulov, A.A. Atakhanov, N.S. Ashurov, …
    Eurasian Journal of Chemistry, 28(2 (110)), 2023.
  • Founders: Ivanovo State Chemical Technology University
    A.E. Ponomareva, V.V. Pantelieva, A.B. Shein
    Izvestiya Vysших Uchebnykh Zavedeniy, 65(3), 52-59, 2022.

Conclusion

The candidate is a strong contender for the Best Researcher Award due to their extensive educational background, leadership in significant research projects, and active participation in the scientific community. Their work in developing innovative materials aligns well with current global challenges, particularly in sustainability. While there are opportunities for improvement in publication output and collaboration, their strengths far outweigh these areas. Awarding them this recognition would not only honor their contributions but also inspire further advancements in polymer chemistry and materials science.

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.

JIBIN K P | Polymer nanocomposites | Best Scholar Award

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Dr.  Mahatma Gandhi University, India

Dr. Jibin Keloth Paduvilan is a highly accomplished researcher in the field of polymer nanocomposites and nanomaterials, with significant contributions to the study of rubber nanocomposites, graphene oxide, and environmentally friendly materials. He holds a Ph.D. in Chemistry from Mahatma Gandhi University, Kottayam, Kerala, where he also serves as a Senior Researcher. With over seven years of R&D experience, including a patent for green tire applications and multiple publications in esteemed journals, Dr. Jibin’s work is at the forefront of advanced material science. Additionally, he is an Editorial Assistant for NANOSO Journal, Elsevier.

Professional Profiles:

Google scholar

Education 🎓 

Doctor of Philosophy (Chemistry)
🎓 2019-2024🏫 School of Chemical Sciences, Mahatma Gandhi University, Kottayam, KeralaDr. Jibin pursued his Ph.D. in Chemistry, focusing on cutting-edge research in nanostructured materials and their applications. Master of Science in Chemistry 🎓 2013-2015🏫 Mahatma Gandhi University, Kottayam, Kerala With a first rank and an impressive 87% score, Dr. Jibin completed his M.Sc. in Chemistry, where he developed a deep understanding of physical and chemical properties of materials. Bachelor of Science in Chemistry 🎓 2010-2013 🏫 Kannur University, Kerala Dr. Jibin completed his B.Sc. with a solid foundation in chemistry, achieving an 82% score.Higher Secondary Examination 🎓 2008-2010 🏫 Kerala Higher Secondary Education Board Secondary School Leaving Certificate 🎓 2008 🏫 General Education Department

Work Experience

Senior Researcher
📅 January 2019 – Present
🏫 School of Chemical Sciences, Mahatma Gandhi University, Kottayam, Kerala, India
Dr. Jibin Keloth Paduvilan has been serving as a Senior Researcher, contributing significantly to the field of polymer nanocomposites and nanomaterials. His research focuses on developing innovative materials for advanced applications, with a strong emphasis on sustainable and environmentally friendly solutions.Editorial Assistant to NANOSO Journal, Elsevier
📅 January 2019 – Present
📚 NANOSO Journal, Elsevier
Dr. Jibin has been an Editorial Assistant for NANOSO Journal, where he collaborates with leading researchers and ensures the publication of high-quality research in the field of nanoscience and nanotechnology.Junior Research Fellow
📅 October 2017 – October 2019
🏫 International and Inter University Centre for Nanoscience and Nanotechnology, Mahatma Gandhi University, Kottayam, Kerala, India
During his tenure as a Junior Research Fellow, Dr. Jibin honed his skills in the synthesis and characterization of nanomaterials, laying the foundation for his future research endeavors.

Research for Best Scholar Award: Evaluation of Dr. JIBIN K P

Strengths for the Award:

  1. Extensive Research Experience:
    • With over seven years in R&D, Dr. JIBIN K P has demonstrated significant expertise in polymer nanocomposites, hybrid nanostructures, and nanomaterial applications. This extensive experience highlights their deep understanding of material science and innovative research capabilities.
  2. Diverse Research Interests:
    • Their research spans a range of topics including graphene oxide, 2D materials, biopolymers, and environment-friendly materials. This breadth of interest indicates a holistic approach to material science and a commitment to advancing sustainable and cutting-edge technologies.
  3. Notable Publications and Patent:
    • [Your Name] has published impactful research in high-quality journals such as Nanomaterials and has been granted a patent (No. 512432) for core shell structure reinforced natural rubber composites. This demonstrates their ability to translate research into practical and innovative solutions.
  4. Editorial Experience:
    • Serving as an Editorial Assistant to NANOSO Journal, [Your Name] has contributed to the academic community, further reflecting their expertise and engagement in the field of nanoscience and nanotechnology.
  5. Academic Excellence:
    • Their strong educational background, including a Ph.D. in Chemistry with a first-rank Master’s degree, underscores a solid foundation in the subject matter and a commitment to academic excellence.

Areas for Improvement:

  1. Broader Collaboration:
    • Expanding collaborative research efforts with international institutions could provide new perspectives and enhance the impact of their work on a global scale.
  2. Increased Focus on Emerging Trends:
    • Staying updated with emerging trends in material science and nanotechnology, such as advancements in AI applications or new nanomaterial synthesis techniques, could further enhance their research scope and relevance.
  3. Enhancing Public Engagement:
    • Increasing public and industry engagement through seminars, workshops, or popular science articles could elevate the visibility and societal impact of their research findings.

 

✍️Publications Top Note :

 

Advances and Future Outlook in Epoxy/Graphene Composites for Anticorrosive Applications

Authors: JS George, JK Paduvilan, N Salim, J Sunarso, N Kalarikkal, N Hameed

Journal: Progress in Organic Coatings

Volume: 162

Article Number: 106571

Year: 2022

Citations: 67

This article reviews the development of epoxy/graphene composites, emphasizing their potential in anticorrosive applications. The review covers various synthesis methods, the role of graphene in enhancing the anticorrosive properties, and the challenges in producing high-performance composites. The future outlook suggests that further research into functionalized graphene and large-scale production techniques could lead to more effective and commercially viable anticorrosive coatings.

Surface Modification of Wool Fabric Using Sodium Lignosulfonate and Subsequent Improvement in the Interfacial Adhesion of Natural Rubber Latex in the Wool/Rubber Composites

Authors: S Jose, S Thomas, KP Jibin, KS Sisanth, V Kadam, DB Shakyawar

Journal: Industrial Crops and Products

Volume: 177

Article Number: 114489

Year: 2022

Citations: 27

This study focuses on the surface modification of wool fabric using sodium lignosulfonate to improve its compatibility with natural rubber latex. The research highlights the enhanced interfacial adhesion in wool/rubber composites, which could be beneficial for the development of advanced textile materials.

Assessment of Graphene Oxide and Nanoclay Based Hybrid Filler in Chlorobutyl-Natural Rubber Blend for Advanced Gas Barrier Applications

Authors: J Keloth Paduvilan, P Velayudhan, A Amanulla, H Joseph Maria

Journal: Nanomaterials

Volume: 11, Issue 5

Article Number: 1098

Year: 2021

Citations: 25

This article examines the use of graphene oxide and nanoclay as hybrid fillers in chlorobutyl-natural rubber blends, focusing on their potential as gas barrier materials. The study demonstrates that the incorporation of these fillers significantly enhances the gas barrier properties, making the composites suitable for advanced applications in various industries.

Silica-Graphene Oxide Reinforced Rubber Composites

Authors: KP Jibin, V Prajitha, S Thomas

Journal: Materials Today: Proceedings

Volume: 34

Pages: 502-505

Year: 2021

Citations: 18

Conclusion:

Dr. JIBIN K P is a distinguished scholar with a robust track record in the field of polymer nanocomposites and nanotechnology. Their extensive research experience, notable publications, and innovative contributions such as the granted patent showcase their excellence and leadership in material science. Addressing areas for improvement, such as broadening collaborations and staying abreast of emerging trends, could further amplify their impact and recognition in the field. Their dedication and achievements make them a strong candidate for the Best Scholar Award, reflecting both their current excellence and future potential in advancing material science and nanotechnology.

Vadim Krongauz | Polymer Physical Chemistry | Best Researcher Award

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Prof Dr. Vadim Krongauz | Polymer Physical Chemistry | Best Researcher Award

Prof Dr. ICU Medical, Inc, United States

A seasoned scientist with over three decades of experience in polymer science, Dr. [Name] has expertise in developing, formulating, and testing radiation-resistant polymers, antimicrobial coatings, and protein-compatible coatings. They have held significant roles at ICU Medical Co., Baxter Healthcare Corp., Surtec Inc., DSM Desotech Inc., E. I. DuPont, and The Dow Chemical Company, contributing to innovations in medical devices, photopolymers, and pharmaceutical packaging. Dr. [Name] has published extensively, taught at universities, and holds numerous patents. They have received multiple awards for their contributions to research and development in polymers and medical solutions. Dr. [Name] holds a Ph.D. in Physical Chemistry from the University of Washington and has completed coursework for a Ph.D. in Software Engineering from DePaul University.

 

Professional Profiles:

Scopus

🎓 Education

Ph.D. in Physical Chemistry, University of Washington, Seattle, WA (1977-1982)Adviser: Professor B. Seymour Rabinovitch, F.R.S.B.S./M.S. in Chemistry, Moscow State University (Lomonosov), Moscow, USSR (1970-1975)Completed course requirements for Ph.D. in Software Engineering, DePaul University, Chicago, IL, USA (1997-2001)

🌟 Areas of Expertise

Polymers and Polymeric Composites Development, Formulation, Testing, Organic Synthesis:Radiation-resistant polymersAntimicrobial coatingsProtein-compatible coatingsPhotochromic coatingsRadiation-curable coatingsAdhesives, inks, CD lacquers, DVD adhesivesBarrier polymersSurfactants and emulsions for parenteral nutritionPhotopolymers and PhotoresistsImaging mediaReaction kineticsMolecular transport & diffusionRadioisotope and fluorescent labelingRadiation and PhotochemistryAnalytical Techniques:UV/Vis/FT-IR and Fluorescence SpectroscopyDynamic Light ScatteringHPLC, GC, GC-MSGel-Permeation, Ion-Exchange, and Radio-ChromatographyMass-SpectrometryNeutron Activation AnalysisOptical MicroscopyComputer Image AnalysisESR, NMRDynamic Mechanical AnalysisDifferential Scanning CalorimetryThermo-Mechanical AnalysisThermogravimetric AnalysisPolymer mechanical testingSoftware Engineering:Programming: C++, SAS, FORTRAN, Perl, Java, J2EE, HTML, XML, XSML, Standard ML, Open GL, RenderMan, POV-Ray, UNIX shell scriptingSoftware: Microsoft Office (Access, Excel, Word), Sigma Plot, PSI PlotMolecular modeling: Gaussian, GaussView, HyperChemImage Analysis: ImagePro Plus, ImageJStatistical Analysis, Design of Experiments: SAS, Minitab; Six Sigma

 

🏢 Professional Experience 

2017-present: Research Investigator Polymer Scientist, ICU Medical Co.Location: 3900 Howard Blvd., Austin, TX 78728Contact: Tel.: 512-244-8836Responsibilities: Designing a laboratory, solving polymer film extrusion problems, developing polymer packaging for medical solutions, and new methods of polymer bonding.2008-2017: Senior Research Scientist, Baxter Healthcare Corp.Responsibilities: Developing antimicrobial coatings, adhesives, and site sterilization indicators. Formulating protein-compatible coatings and analyzing the thermal and radiation stability of materials.2004-2008: Research Scientist, Baxter Healthcare Corp.2004: Sr. Development Chemist, Surtec Inc.Responsibilities: Synthesizing oligomers and polymers, formulating water-based and solvent-based emulsions, and scaling up synthesis.2003-2004: Professor, University of Illinois, Chicago, ILResponsibilities: Synthesizing complex esters, organometallic compounds, and teaching Advanced General Chemistry and Advanced Organic Chemistry courses.1992-2003: Sr. Research Associate, DSM Desotech Inc.Responsibilities: Developing UV and radiation-curable coatings, CD lacquers, DVD adhesives, and leading a technical team for new business development.1987-1992: Staff Research Chemist, E. I. DuPONT de NEMOURS & COMPANYResponsibilities: Developing photopolymers for digital information storage, printing, photoresists, and conducting image analysis for coating quality control.1984-1987: Senior Research Chemist, The DOW Chemical CompanyResponsibilities: Developing methods of impurity control and analysis, synthesizing fluorescent and radioisotope-labeled polymers, and building plant analytical facilities.1982-1984: Postdoctoral Research Associate, Argonne National Laboratory/University of ChicagoResponsibilities: Studying the kinetics of fast electrochemical reactions and modeling electron transfer rates in organic solids.Additional Professional Activities:Adjunct Professor at DePaul University since 1993Editor of “Processes in Photoreactive Polymers” (1995)Visiting Scientist at Argonne National Laboratory (1990-1993)

🏆 Awards

Three DSM Desotech Inc. awards for Innovations and Excellence in ResearchBaxter Healthcare Corp., Technology Resources Ingenuity Award (2005)Baxter Healthcare Corp. Corporate Technical Award (2007): Customer FirstBaxter Healthcare Corp. Corporate Technical Award (2007): Outstanding InnovationBaxter Healthcare Corp., Technology Resources Ingenuity Award (2008)

✍️Publications Top Note :

Article: Kinetics of Plasticized Poly(vinyl chloride) Thermal Degradation, Induction, Autocatalysis, Glass Transition, Diffusion

Authors: Krongauz, V.V.

Journal: ChemistrySelect, 2024, 9(23), e202401031

Article: Kinetics of Poly(vinyl chloride) Thermal and Thermo-Mechanical Degradation in the Presence of Epoxidized Plasticizer. Induction Effect

Authors: Krongauz, V.V., DePolo, W.

Journal: Journal of Applied Polymer Science, 2023, 140(7), e53482

Book Chapter: Instrumentation

Authors: Menczel, J.D., Andre, R., Krongauz, V.V., Szécsényi, K.M., Grebowicz, J.

Source: Handbook of Differential Scanning Calorimetry: Techniques, Instrumentation, Inorganic, Organic and Pharmaceutical Substances, 2023, pp. 793–840.

Book Chapter: Fundamentals of DSC

Authors: Menczel, J.D., Andre, R., Kohl, W.S., Reading, M., Grebowicz, J.

Source: Handbook of Differential Scanning Calorimetry: Techniques, Instrumentation, Inorganic, Organic and Pharmaceutical Substances, 2023, pp. 1–189

Article: Kinetics and Mechanism of Plasticized Poly(vinyl chloride) Films Autohesion. Interface Effect

Authors: Krongauz, V.V.

Journal: Journal of Thermal Analysis and Calorimetry, 2022, 147(6), pp. 4177–4195

Article: Compensation Effect: Sublimation, Diffusion in Polymers, Polymer Degradation

Authors: Krongauz, V.V.

Journal: Journal of Thermal Analysis and Calorimetry, 2019, 138(5), pp. 3425–3444.

Article: Synthesis of Solvatochromic Merocyanine Dyes and Their Immobilization to Polymers

Authors: Nordhaus, M.A., Krongauz, V.V., Hai, T.T.

Journal: Journal of Applied Polymer Science, 2017, 134(5), 44451

Article: Kinetics of Water Vapor Diffusion in Resins

Authors: Krongauz, V.V., Bennett, S.E., Ling, M.T.K.

Journal: Journal of Thermal Analysis and Calorimetry, 2016, 125(1), pp. 231–243

Article: Revisiting Analysis of Phthalate Plasticizers Concentration in Poly(vinyl chloride)

Authors: Krongauz, V.V., Ling, M.T.K., O’Connell, J.

Journal: Journal of Vinyl and Additive Technology, 2015, 21(3), pp. 197–204

Conference Paper: Kinetics of Catalyst-Free Thermal and Photo-Oxidation of Cumene

Authors: Krongauz, V., O’Connell, J.F., Ling, M.T.K.

Journal: Journal of Thermal Analysis and Calorimetry, 2014, 116(3), pp. 1285–1299