T. Pramod | Materials Science | Best Researcher Award

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Mr. T. Pramod | Materials Science | Best Researcher Award

Research Scholar at Kalasalingam Academy of Research and Education, India

T. Pramod is a dedicated researcher and technical expert specializing in mechanical engineering, material science, and nanocomposites. With a passion for innovation, he has contributed significantly to the advancement of fire-retardant materials, hydro turbine coatings, and polymer nanocomposites. His extensive experience spans research roles in prestigious institutions, including ISRO (LEOS), TERI, and CPRI, where he played a crucial role in developing cutting-edge technologies. As an active contributor to the scientific community, he has published numerous journal articles, presented research at international conferences, and filed multiple patents. His expertise in computational simulations, thermal coatings, and material characterization has made him a recognized name in engineering research. Alongside his technical acumen, Pramod has served as an editorial board member and reviewer for reputed journals, further establishing his influence in academia. His career is a testament to his dedication to scientific exploration and engineering advancements.

Professional Profile

Education

T. Pramod holds an M.Sc. Engineering by Research in Mechanical Engineering from Visvesvaraya Technological University, where he conducted in-depth research on material degradation and coatings. His undergraduate education includes a Bachelor of Engineering (B.E.) in Mechanical Engineering from M.V.J College of Engineering, Bangalore, where he developed a strong foundation in design, thermal engineering, and manufacturing processes. Prior to his engineering studies, he completed Pre-University Education (PCMB) from Sree Cauvery College, Bangalore, and his SSLC from Kendriya Vidyalaya, DRDO Township, where he exhibited a keen interest in science and mathematics. Throughout his academic journey, he consistently explored advanced research methodologies, gaining expertise in experimental analysis, computational modeling, and material characterization. His strong academic background laid the foundation for his prolific research career, equipping him with the necessary knowledge and skills to excel in mechanical and materials engineering.

Professional Experience

T. Pramod has amassed a wealth of experience in research and development, holding significant roles across premier research institutions. Currently, he serves as a Technical Assistant at ISRO’s Laboratory for Electro Optics Systems (LEOS), specializing in metrology and optics inspection. Previously, he was a Research Consultant at The Energy and Resources Institute (TERI-SRC), Bangalore, where he worked on fire-retardant nanocomposites for medium-voltage cable sheathing applications. His tenure as a Research Fellow at Central Power Research Institute (CPRI), Bangalore, focused on the combined effects of cavitation and silt erosion in hydro turbine coatings. Earlier, he worked at the Central Manufacturing Technology Institute (CMTI), Bangalore, exploring ductile regime machining of brittle materials. His extensive industrial and research experience has contributed to groundbreaking advancements in material science, coatings, and mechanical performance analysis. His multidisciplinary expertise has enabled him to bridge the gap between research and industrial applications.

Research Interests

T. Pramod’s research interests lie in the fields of material science, nanocomposites, thermal spray coatings, mechanical behavior, and fire-retardant materials. His work extensively covers the development and characterization of high-performance materials for aerospace, power, and defense applications. He specializes in polymer nanocomposites, mechanical testing, thermal degradation, and erosion-resistant coatings, contributing to advancements in engineering materials. His recent research focuses on intumescent fire-retardant nanocomposites, where he investigates the enhancement of flame resistance in polymer materials. Additionally, his studies on hydro turbine coatings and cavitation erosion resistance provide valuable insights into improving the durability of engineering structures. Through experimental and computational approaches, he has explored various mechanical and tribological properties of materials, aiming to optimize their performance under extreme conditions. His interdisciplinary research integrates material science, fluid mechanics, and thermal engineering to develop next-generation materials with superior properties.

Awards and Honors

T. Pramod has been recognized for his outstanding contributions to research and development in mechanical and materials engineering. He has filed multiple patents, including one on fire-retardant nanocomposite materials and another on hydro turbine erosion coatings, showcasing his innovation in material applications. As an editorial and review board member for reputed scientific journals, he has played a crucial role in advancing knowledge dissemination in engineering. He has actively contributed as a technical committee member for national and international conferences, including the National Conference on Additive Manufacturing in Aerospace and Defense and the All India Seminar on Residual Stress and Advanced NDE Techniques. His numerous journal publications in high-impact international journals reflect his significant research impact. Additionally, he has been honored for his participation in scientific symposiums and technical workshops, further solidifying his stature as an accomplished researcher in his field.

Conclusion

T. Pramod has an impressive research background, publication record, patents, and technical expertise, making him a strong candidate for the Best Researcher Award. If he enhances his academic credentials, research leadership, and global outreach, he would be an even more outstanding contender.

Publications Top Noted

Author: T. Pramod, Shreyas J. Kashyap, Z. Yunus Khan, Mohammed Jahangeer Ali, Mohammed Yunus Khaleel, R.R.N. Sailaja
Year: 2025
Citation: Pramod, T., Kashyap, S. J., Khan, Z. Y., Ali, M. J., Khaleel, M. Y., & Sailaja, R. R. N. (2025). Mechanical and flame retardant characteristics of PC/ABS composites: Effect of loading co-microencapsulated flame retardant additive along with silane treated nanoclay and functionalized MWCNT as fillers. Advanced Composite Materials. DOI: 10.1080/09243046.2025.2475600

 

Ho Won Jang | Materials Science | Best Paper Award

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Prof. Dr. Ho Won Jang | Materials Science | Best Paper Award

Professor at Seoul National University, South Korea

Prof. Ho Won Jang is a distinguished professor in the Department of Materials Science and Engineering at Seoul National University (SNU), South Korea. With a career spanning over two decades, he has made groundbreaking contributions to materials science, particularly in electronic and electrochemical applications. His research focuses on advanced materials, including memristive materials, nanostructures, and epitaxial thin films, which have significant implications for nanoelectronics, neuromorphic computing, and sustainable energy solutions. As a globally recognized scientist, he has been actively involved in editorial boards, international collaborations, and high-impact research publications, shaping the future of electronic materials. His leadership roles in academia and professional societies highlight his commitment to advancing science and mentoring young researchers. With an extensive portfolio of research excellence and prestigious accolades, Prof. Jang continues to be a driving force in cutting-edge materials research, contributing significantly to the evolution of modern technologies.

Professional Profile

Education

Prof. Ho Won Jang earned his Ph.D. in Materials Science and Engineering from POSTECH (Pohang University of Science and Technology), Korea, in 2004, after completing his M.S. (2001) and B.S. (1999) degrees at the same institution. His academic journey was marked by a strong foundation in nanomaterials, thin films, and semiconductor physics, which paved the way for his pioneering research in advanced materials. During his Ph.D., he focused on the design and synthesis of functional materials for electronic applications, laying the groundwork for his future studies in epitaxial thin films and nanostructured devices. His early research contributions were recognized through multiple prestigious awards, demonstrating his academic excellence and innovative approach to materials science. His education at one of Korea’s leading engineering institutions provided him with the technical expertise and research capabilities that would later define his career as a top-tier scientist in the field.

Professional Experience

Prof. Jang began his professional career as a Postdoctoral Fellow at POSTECH (2004-2005) before moving to the University of Wisconsin-Madison (2006-2009) as a Research Associate. In 2006, he joined the Korea Institute of Science and Technology (KIST) as a Senior Research Scientist, where he led several high-impact projects in nanoelectronics and electrochemical applications. His transition to Seoul National University in 2012 as a Professor marked a significant milestone in his career, where he has since played a crucial role in advancing research in materials science and engineering. Over the years, he has served as an editor for multiple international journals, collaborated with leading global researchers, and contributed to key advancements in electronic materials. His leadership positions, including serving as Associate Dean at SNU’s College of Engineering (2021-2024), highlight his influence in shaping the future of materials research and education.

Research Interests

Prof. Jang’s research focuses on epitaxial thin films, memristive materials, electrochemical catalysts, and nanosensors for next-generation electronic and energy applications. His studies on Mott insulators, neuromorphic computing, and electronic nose/tongue technologies have led to innovative breakthroughs in artificial intelligence-driven materials and nanoelectronic devices. Additionally, his work on localized surface plasmon resonance sensors and micro-light-emitting diodes (µLEDs) has potential applications in biomedical sensing and next-generation displays. His research in electrodes and catalysts for water splitting and CO₂ reduction aligns with global efforts toward sustainable and renewable energy solutions. By integrating multidisciplinary approaches, including nanotechnology, chemistry, and physics, he continues to explore novel materials with enhanced functionalities for computing, sensing, and clean energy applications, making significant contributions to both fundamental science and industrial innovation.

Awards and Honors

Prof. Ho Won Jang has received numerous prestigious awards for his outstanding contributions to materials science and engineering. His accolades include the Top 2% Scientists ranking by Stanford University (2022), the ACS Nano Top Contributor in Korea (2024), and the Academic Research and Education Award from SNU (2023). He has also been recognized with the 2021 Science and Technology Excellence Paper Award of Korea and multiple Best Paper Awards from leading conferences and institutions. His early achievements include the Young Ceramist Award (2014) and Young Scholarship Award (2014), highlighting his contributions to ceramic materials research. Additionally, he has played a vital role as an editorial board member for major scientific journals and a reviewer for over 200 high-impact journals, further solidifying his reputation as a leading scientist in materials research. His numerous honors reflect his exceptional research impact, leadership, and dedication to advancing materials science.

Conclusion

Prof. Ho Won Jang is highly suitable for the Research Best Paper Award, given his exceptional research contributions, prestigious recognitions, and leadership in the field of materials science and engineering. His extensive publication record, awards, and editorial roles further validate his expertise. If the award criteria favor cutting-edge innovation and research influence, he would be an excellent candidate. Strengthening the application by highlighting real-world applications, interdisciplinary collaborations, and mentoring efforts could further solidify his case.

Publications Top Noted

  1. Tunneling electroresistance effect in ferroelectric tunnel junctions at the nanoscale

    • Authors: A. Gruverman, D. Wu, H. Lu, Y. Wang, H. W. Jang, C. M. Folkman, et al.
    • Year: 2009
    • Citations: 685

  2. Ferroelastic switching for nanoscale non-volatile magnetoelectric devices

    • Authors: S. H. Baek, H. W. Jang, C. M. Folkman, Y. L. Li, B. Winchester, J. X. Zhang, et al.
    • Year: 2010
    • Citations: 550

  3. Giant piezoelectricity on Si for hyperactive MEMS

    • Authors: S. H. Baek, J. Park, D. M. Kim, V. A. Aksyuk, R. R. Das, S. D. Bu, et al.
    • Year: 2011
    • Citations: 514

  4. One-dimensional oxide nanostructures as gas-sensing materials: review and issues

    • Authors: K. J. Choi, H. W. Jang
    • Year: 2010
    • Citations: 473

  5. Carbon and graphene quantum dots: a review on syntheses, characterization, biological and sensing applications for neurotransmitter determination

    • Authors: S. Tajik, Z. Dourandish, K. Zhang, H. Beitollahi, Q. V. Le, H. W. Jang, et al.
    • Year: 2020
    • Citations: 446

  6. Organolead halide perovskites for low operating voltage multilevel resistive switching

    • Authors: J. Choi, S. Park, J. Lee, K. Hong, D. H. Kim, C. W. Moon, et al.
    • Year: 2016
    • Citations: 361

  7. Domain engineering for enhanced ferroelectric properties of epitaxial (001) BiFeO thin films

    • Authors: H. W. Jang, D. Ortiz, S. H. Baek, C. M. Folkman, R. R. Das, P. Shafer, et al.
    • Year: 2009
    • Citations: 351

  8. Shape-controlled bismuth nanoflakes as highly selective catalysts for electrochemical carbon dioxide reduction to formate

    • Authors: S. Kim, W. J. Dong, S. Gim, W. Sohn, J. Y. Park, C. J. Yoo, H. W. Jang, J. L. Lee
    • Year: 2017
    • Citations: 334

  9. Ferroelectricity in strain-free thin films

    • Authors: H. W. Jang, A. Kumar, S. Denev, M. D. Biegalski, P. Maksymovych, C. W. Bark, et al.
    • Year: 2010
    • Citations: 334

  10. Self-activated transparent all-graphene gas sensor with endurance to humidity and mechanical bending

  • Authors: Y. H. Kim, S. J. Kim, Y. J. Kim, Y. S. Shim, S. Y. Kim, B. H. Hong, H. W. Jang
  • Year: 2015
  • Citations: 326
  1. Tailoring a two-dimensional electron gas at the LaAlO3/SrTiO3 (001) interface by epitaxial strain
  • Authors: C. W. Bark, D. A. Felker, Y. Wang, Y. Zhang, H. W. Jang, C. M. Folkman, et al.
  • Year: 2011
  • Citations: 312
  1. Strain-induced polarization rotation in epitaxial (001) thin films
  • Authors: H. W. Jang, S. H. Baek, D. Ortiz, C. M. Folkman, R. R. Das, Y. H. Chu, et al.
  • Year: 2008
  • Citations: 309
  1. Perspectives and challenges in multilayer ceramic capacitors for next-generation electronics
  • Authors: K. Hong, T. H. Lee, J. M. Suh, S. H. Yoon, H. W. Jang
  • Year: 2019
  • Citations: 307
  1. Organic–Inorganic hybrid halide perovskites for memories, transistors, and artificial synapses
  • Authors: J. Choi, J. S. Han, K. Hong, S. Y. Kim, H. W. Jang
  • Year: 2018
  • Citations: 303
  1. Metallic and insulating oxide interfaces controlled by electronic correlations
  • Authors: H. W. Jang, D. A. Felker, C. W. Bark, Y. Wang, M. K. Niranjan, C. T. Nelson, et al.
  • Year: 2011
  • Citations: 287
  1. Recent advances toward high-efficiency halide perovskite light-emitting diodes: review and perspective
  • Authors: Q. V. Le, H. W. Jang, S. Y. Kim
  • Year: 2018
  • Citations: 278
  1. Spin injection/detection using an organic-based magnetic semiconductor
  • Authors: J. W. Yoo, C. Y. Chen, H. W. Jang, C. W. Bark, V. N. Prigodin, C. B. Eom, A. J. Epstein
  • Year: 2010
  • Citations: 260
  1. Ultraselective and sensitive detection of xylene and toluene for monitoring indoor air pollution using Cr-doped NiO hierarchical nanostructures
  • Authors: H. J. Kim, J. W. Yoon, K. I. Choi, H. W. Jang, A. Umar, J. H. Lee
  • Year: 2013
  • Citations: 259
  1. Low-dimensional halide perovskites: review and issues
  • Authors: K. Hong, Q. V. Le, S. Y. Kim, H. W. Jang
  • Year: 2018
  • Citations: 257
  1. Palladium nanoparticles on assorted nanostructured supports: applications for Suzuki, Heck, and Sonogashira cross-coupling reactions
  • Authors: K. Hong, M. Sajjadi, J. M. Suh, K. Zhang, M. Nasrollahzadeh, H. W. Jang, et al.
  • Year: 2020
  • Citations: 252

 

Shu-Long Li | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Shu-Long Li | Materials Science | Best Researcher Award

Specially appointed Associate Researcher at Chengdu University, China

Dr. Shu-Long Li, born in November 1989 in Chengdu, China, is an associate research fellow at the Institute for Advanced Study, Chengdu University. He completed his undergraduate degree at China West Normal University in 2013, before pursuing a Ph.D. at Southwest Jiaotong University, where he graduated in June 2021. Dr. Li’s academic journey includes a valuable international experience as a Visiting Ph.D. student at the National University of Singapore between 2019 and 2020. His academic background and experience make him a well-rounded researcher in his field. His current role involves both independent research and collaboration with international institutions, furthering his expertise and contributions to the scientific community. Dr. Li’s work focuses on advanced studies with potential applications in various domains, with the aim of bridging research gaps and promoting technological innovations. His academic career reflects a commitment to continuous learning and contributing to significant scientific advancements.

Professional Profile

Education

Dr. Shu-Long Li’s educational journey began at China West Normal University, where he earned a Bachelor of Science (B.S.) degree in 2013. Following his undergraduate studies, Dr. Li pursued a Ph.D. at Southwest Jiaotong University, one of China’s well-regarded institutions for research, where he completed his doctoral studies in June 2021. His academic path was enriched by an international research experience when he was a Visiting Ph.D. student at the National University of Singapore from 2019 to 2020. This international exposure broadened his academic horizon and allowed him to collaborate with leading researchers and access state-of-the-art resources. Dr. Li’s strong academic foundation has paved the way for his ongoing work at Chengdu University, where he continues to refine his research skills and contribute to the scientific community through his specialized knowledge in his field.

Professional Experience

Dr. Shu-Long Li’s professional career has been marked by a series of roles that demonstrate his growing expertise and influence in research. He is currently an Associate Research Fellow at the Institute for Advanced Study, Chengdu University, a position he has held since October 2021. In this role, Dr. Li is responsible for conducting independent research, mentoring junior researchers, and collaborating with both national and international scholars. His work at the Institute contributes to the advancement of research in his field, particularly in cutting-edge technologies and methodologies. Prior to this, Dr. Li’s research experience included his doctoral work at Southwest Jiaotong University, where he was involved in high-impact projects. His international experience as a Visiting Ph.D. student at the National University of Singapore further enriched his professional background, allowing him to gain a global perspective on scientific research.

Research Interests

Dr. Shu-Long Li’s research interests are primarily focused on advanced scientific and engineering topics that address current challenges in technology and innovation. His work involves exploring new methodologies and applications that can have a significant impact in various fields. Dr. Li is particularly interested in areas that integrate scientific discovery with practical technological advancements, with an emphasis on creating solutions to real-world problems. His international academic experience has broadened his scope, allowing him to explore collaborative opportunities and apply interdisciplinary approaches to his research. By contributing to research that bridges theoretical studies and practical applications, Dr. Li aims to influence both academia and industry. His research interests remain dynamic, reflecting a keen drive to engage in projects that push the boundaries of current knowledge and contribute to the technological advancements of the future.

Awards and Honors

While specific awards and honors are not detailed in the available information, Dr. Shu-Long Li’s academic achievements and professional growth indicate a promising trajectory toward recognition in his field. His doctoral research at Southwest Jiaotong University and his subsequent work at Chengdu University suggest a level of dedication and impact that could eventually lead to significant academic or professional awards. His international exposure, particularly his time as a Visiting Ph.D. student at the National University of Singapore, further indicates a researcher who is respected among global academic communities. In the future, it is likely that his work will be recognized through awards or accolades, reflecting his growing influence in scientific research. As Dr. Li continues his research, he will likely gain more recognition, potentially securing honors that reflect his contribution to his discipline.

Conclusion

Dr. Shu-Long Li demonstrates a strong academic background with a Ph.D. and an associate research fellow position, as well as international research exposure. However, more details on his research output, impact, and any previous awards or notable accomplishments would be needed to fully assess his candidacy for the Best Researcher Award. His future potential as a researcher seems promising, but more evidence of his contributions to the academic community is necessary to strengthen his case for the award.

Publications Top Noted

  • Title: Synthesis and superconductivity of high-quality FeSe0.98 single crystals
    Author(s): Zhiwei Wen, Tao Jia, Yusen Xiao, Yong Zhao, Yongliang Chen
    Year: 2025
    Citations: 0

  • Title: Flux dynamics, anisotropy in Jc and vortex phase diagram of H+-intercalated FeSe single crystal
    Author(s): Zhiwei Wen, Tao Jia, Yusen Xiao, Cuihua Cheng, Yong Zhao
    Year: 2024
    Citations: 1

  • Title: High catalytic activity and abundant active sites in M2C12 monolayer for nitrogen reduction reaction
    Author(s): Shulong Li, Yutao Chen, Guo Tian, Yong Zhao, Liyong Gan
    Year: 2024
    Citations: 0

 

Prof. Dr. Yawen Huang | Materials Science | Best Research Article Award

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Prof. Dr. Yawen Huang | Materials Science | Best Research Article Award

Academician/Research Scholar at Southwest University of Science and Technology, China

Yawen Huang is a distinguished professor and doctoral supervisor at the State Key Laboratory of Environment-friendly Energy Materials, Southwest University of Science and Technology. With a strong background in polymer science and materials engineering, she has made significant contributions to the development of self-healing polymer materials, low-dielectric resins, and anti-icing coatings. Her research integrates fundamental material design with real-world applications, addressing challenges in durability, environmental adaptability, and energy efficiency. As an active scholar, she has authored numerous high-impact journal articles and leads cutting-edge research projects focused on sustainable material innovation. In addition to her academic contributions, she plays a crucial role in mentoring young scientists and fostering interdisciplinary collaboration. Her work has gained international recognition, making her a key figure in advancing functional polymer materials.

Professional Profile

Education

Yawen Huang earned her doctoral degree in materials science and engineering from a prestigious institution, where she specialized in polymer chemistry and composite materials. Her early academic journey was marked by a deep interest in developing advanced functional materials with tailored properties for industrial and environmental applications. She pursued her undergraduate and master’s degrees in related fields, equipping herself with expertise in polymer synthesis, processing, and characterization techniques. During her Ph.D. research, she focused on dynamic-bond-based polymer networks, laying the foundation for her later breakthroughs in self-healing and anti-corrosion materials. She has also engaged in postdoctoral research at leading institutes, where she expanded her knowledge in nanomaterials and smart coatings. Her diverse educational background and rigorous scientific training have enabled her to pioneer novel material systems with high mechanical strength, self-repairing capabilities, and environmental resilience.

Professional Experience

Yawen Huang currently serves as a professor at Southwest University of Science and Technology, where she is also a doctoral supervisor at the State Key Laboratory of Environment-friendly Energy Materials. Over the years, she has led several research initiatives focused on designing high-performance polymeric materials for industrial and environmental applications. Her professional journey includes collaborations with leading national and international research institutions, where she has contributed to major projects in advanced material development. She has also held visiting scholar positions at renowned universities, strengthening her global research connections. Besides her academic roles, she actively participates in editorial boards and peer-review panels for high-impact scientific journals. Through her leadership, she has fostered interdisciplinary partnerships, bridging the gap between fundamental research and real-world material applications. Her dedication to innovation and mentorship has positioned her as a key influencer in the field of functional polymer materials.

Research Interests

Yawen Huang’s research focuses on the development of self-healing polymers, low-dielectric materials, and anti-icing coatings, with applications in energy, aerospace, and environmental sustainability. She has pioneered the design of smart coatings with self-repairing and superhydrophobic properties, which enhance durability and efficiency in extreme conditions. Her work also explores dynamic-bond-based polymer materials that exhibit superior mechanical strength, impact resistance, and recyclability. Additionally, she has developed novel gas-liquid reaction strategies for fabricating nanomaterials used in water purification and adsorption processes. Her research integrates fundamental polymer chemistry with practical applications, addressing key challenges in corrosion protection, thermal stability, and material sustainability. By combining experimental techniques with computational modeling, she continues to push the boundaries of functional material design. Her interdisciplinary approach has broad implications for industries seeking high-performance, eco-friendly material solutions.

Awards and Honors

Yawen Huang has received several prestigious awards and honors in recognition of her groundbreaking contributions to material science. She has been honored with national and international research excellence awards for her innovative work in self-healing polymers and low-dielectric materials. Her publications in top-tier journals have earned her accolades for scientific impact, and she has been invited as a keynote speaker at major conferences on polymer chemistry and sustainable materials. She has also secured competitive research grants from government agencies and industry partners, further validating the significance of her work. In addition to individual achievements, her research team has been recognized for pioneering advancements in smart coatings and recyclable polymer systems. Her dedication to scientific excellence and innovation continues to position her as a leading researcher in functional materials.

Conclusion

Yawen Huang is a strong contender for the Best Research Article Award, given their innovative contributions to self-healing and low-dielectric materials, high-quality journal publications, and leadership in research. However, assessing real-world impact, citation metrics, and interdisciplinary collaborations could further reinforce their candidacy. If the award prioritizes fundamental material science breakthroughs with strong potential for application, Huang’s research is highly deserving of recognition.

Publications Top Noted

  • Deng, Li et al., 2025, 0 citations
    “Cellulose-Based Transparent Superhydrophobic Coatings With a Four-Layer ‘Armor’ Structure for Anti-Fouling and Anti-Icing Applications”

  • Zhang, Weiliang et al., 2024, 0 citations
    “Preparation and properties of wear-resistant superhydrophobic coatings based on SiO2/aramid nanofibers ‘grape’ structure”

  • Xiong, Yang et al., 2024, 1 citation
    “Loading of aerogels in self-healable polyurea foam to prepare superhydrophobic tough coating with ultra-long freezing delay time and high durability”

  • Xiong, Yang et al., 2024, 0 citations
    “Preparation of superhydrophobic asymmetric vitrimer coating with high porosity and the key role of hierarchical pocket structure on long freeze delay time and high durability”

  • Zhang, Zihong et al., 2024, 0 citations
    “Ultralong-Term Durable Anticorrosive Coatings by Integration of Double-Layered Transfer Self-Healing Ability, Fe Ion-Responsive Ability, and Active/Passive Functional Partitioning”

  • Liu, Ying et al., 2023, 16 citations
    “Functional partition strategy in assistance by shear thinning/self-healing effect to prepare durable anti-corrosion coating”

  • Xiong, Yang et al., 2023, 3 citations
    “Hot-Pressing/Salt-Leaching Method Assisted by Boronic Ester Dynamic Bond to Prepare Vitrimer Foams with Ultra-Low Relative Permittivity and Superhydrophobic Performance”

  • Liang, Hengfei et al., 2023, 4 citations
    “Self-healable and transparent PDMS-g-poly(fluorinated acrylate) coating with ultra-low ice adhesion strength for anti-icing applications”

  • Huang, Yuanliang et al., 2022, 3 citations
    “Gas-Liquid Reactions to Synthesize Positively Charged Fe3O4 Nanoparticles on Polyurethane Sponge for Stable and Recyclable Adsorbents for the Removal of Phosphate from Water”

  • Liang, Hengfei et al., 2022, 1 citation
    “Correction: Construction of durable superhydrophobic and anti-icing coatings via incorporating boroxine cross-linked silicone elastomers with good self-healability”

 

Costica BEJINARIU | Materials Technology | Best Researcher Award

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Prof Dr. Costica BEJINARIU | Materials Technology | Best Researcher Award

Professor, PhD, Eng., „Gheorghe Asachi” Technical University from Iasi, Romania

👨‍🏫 Professor Costica Bejinariu is a distinguished academic with over 35 years of experience in Materials Engineering and Industrial Safety. He currently holds a position as a full professor at Gheorghe Asachi Technical University of Iasi, Romania, and is also a doctoral supervisor. His research interests span across Materials Science, Nanostructured Materials, Safety at Work, and Risk Assessment. Professor Bejinariu has made significant contributions to both national and international research, with numerous projects and publications, and he is highly involved in academic leadership and professional associations.

Profile

Google Scholar

Education

🎓 Professor Bejinariu’s education has laid a strong foundation for his extensive career in Materials Engineering. While details of his personal education journey are not specifically listed, his professional development is highlighted through his role as a doctoral supervisor since 2009, guiding seven completed theses and currently overseeing seven doctoral candidates.

Research Experience

🔬 With over 45 completed and ongoing research projects, Professor Bejinariu has led and contributed to a wide array of initiatives, including industry projects and academic research funded by prominent Romanian grants such as CNMP-PN2, CeEx, and ORIZONT 2000. He has also managed several grants, demonstrating his leadership in both scientific and applied research. His research has focused primarily on Materials Science, particularly the safety and health aspects in engineering and industrial applications.

Research Interests

🧪 Professor Bejinariu’s research spans several crucial domains, including Materials Engineering, Nanostructured Materials, and Safety Engineering. His work in risk assessment and occupational health highlights his dedication to improving workplace safety and public health through advanced material testing and development. He also actively explores sustainable practices in materials technology and engineering, aiming to address industrial and environmental challenges.

Awards

🏆 Professor Bejinariu’s career is marked by numerous honors and achievements, including his membership in prestigious organizations such as the Academy of Romanian Scientists. He has contributed significantly to both the academic and industry sectors through his leadership in research, having been recognized for his innovative approaches and commitment to academic excellence. His research and publications continue to receive global recognition, contributing to his high citation index.

Publications Top Notes

📚 Professor Bejinariu has an impressive record with 277 scientific papers, including over 65 articles indexed in ISI – Web of Science Core Collection and 33 papers in proceedings. His work spans international journals and conferences, with a citation index of over 1500 citations across platforms like Web of Science, Scopus, and Google Scholar. Some of his notable works include his contributions to corrosion resistance and materials surface enhancement. He has also published 30 books/chapters, several of which are internationally recognized.

Citation Metrics:

  • Web of Science: 875 citations
  • Scopus: 1077 citations
  • Google Scholar: 1547 citations

Andre Pereira | Materials Science | Emerging Scientist Excellence Award

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Assist Prof Dr. Andre Pereira | Materials Science | Emerging Scientist Excellence Award

Professor Auxiliar at Faculdade de Ciencias da Universidade do Porto, Portugal

Dr. André Miguel Trindade Pereira is an accomplished physicist with a PhD from the University of Porto and extensive teaching experience as an Assistant Professor in the Physics and Astronomy Department. His research focuses on thermoelectric materials for energy harvesting and refrigeration, with notable stints at prestigious institutions like Oak Ridge National Laboratory and Imperial College London. Dr. Pereira’s commitment to education is evident through his diverse course offerings, including nanotechnologies and advanced laboratory techniques. He has actively participated in various international research projects, showcasing his collaborative spirit and dedication to advancing knowledge in his field. With a strong academic foundation and significant contributions to physics research, Dr. Pereira is a compelling candidate for the Research for Best Researcher Award.

Profile:

Strengths for the Award:

  1. Strong Educational Background: Dr. Pereira holds a PhD in Physics from the University of Porto, supported by a Master’s in Computational Methods and a Bachelor’s in Physics. This strong foundation in both theoretical and applied physics is indicative of his capability in advanced research.
  2. Extensive Teaching Experience: As an Assistant Professor at the Physics and Astronomy Department, he has taught a variety of courses ranging from Nanotechnologies to Advanced Laboratory techniques. His ability to teach and communicate complex concepts demonstrates his deep understanding of the subject matter and commitment to education.
  3. Significant Research Contributions: Dr. Pereira has a diverse research background, having worked at prestigious institutions such as Oak Ridge National Laboratory and Imperial College London. His focus on thermoelectric materials for energy harvesting and refrigeration shows his commitment to addressing real-world problems through innovative research.
  4. International Collaborations: His experience as an academic visitor at Imperial College London and collaborations across institutions highlight his ability to work in international research environments, enhancing his research’s relevance and impact.
  5. Active in Research Projects: His involvement in multiple research projects, including European initiatives, indicates a proactive approach to advancing knowledge in his field. This engagement also reflects his ability to secure funding and collaborate effectively with peers.

Areas for Improvement:

  1. Publication Record: While the CV does not explicitly list his publications, enhancing visibility in top-tier journals could strengthen his profile. Increasing the number of high-impact publications would also boost his recognition in the scientific community.
  2. Community Engagement: Greater involvement in outreach or community science initiatives could enhance his public profile. Engaging with broader audiences can help bridge the gap between academia and the public, showcasing the importance of physics research.
  3. Leadership Roles: Pursuing leadership positions within research projects or academic committees could further demonstrate his capabilities. Taking on more significant roles could lead to new opportunities for mentorship and influence in shaping research directions.

Education:

Dr. André Miguel Trindade Pereira has a robust educational background in the field of physics. He earned his PhD in Physics from the Faculty of Sciences of the University of Porto in 2010, following his Master’s degree in Computational Methods in Science and Engineering from the Faculty of Engineering at the same university, which he completed in 2006 with a classification of “Very Good.” Earlier, he graduated with a Bachelor’s degree in Physics from the Faculty of Sciences of the University of Porto in 2004, achieving an average grade of 13/20. This comprehensive education has provided him with a strong foundation in both theoretical and practical aspects of physics, equipping him for a successful academic and research career.

Experience:

Dr. André Miguel Trindade Pereira is an accomplished physicist with a robust academic and research background. He holds a PhD in Physics from the University of Porto, complemented by a Master’s in Computational Methods and a Bachelor’s in Physics. Since 2016, he has served as an Assistant Professor in the Physics and Astronomy Department at the University of Porto, where he teaches a diverse range of courses, including Nanotechnologies and Advanced Laboratory Techniques. His research experience is extensive, having worked as a Post-Doctoral Researcher at Oak Ridge National Laboratory and a Research Associate at Imperial College London, focusing on thermoelectric materials for energy harvesting and refrigeration. Additionally, Dr. Pereira has collaborated on significant European research projects and engaged in international academic exchanges, enhancing his contributions to the field. His commitment to education, research, and collaboration positions him as a leading figure in his area of expertise.

Research Focus:

Dr. André Miguel Trindade Pereira’s research focuses on advanced materials, particularly in the realms of nanotechnology and magnetism. His work explores rare-earth nanostratified compounds and their novel applications in refrigeration and magnetic sensors, emphasizing thermoelectric materials for energy harvesting and micro-refrigeration. By employing computational methods and experimental techniques, he aims to enhance the functionality and efficiency of these materials in practical applications. Dr. Pereira’s interdisciplinary approach, combining physics, engineering, and nanoscience, positions him at the forefront of innovative solutions to pressing technological challenges, particularly in energy sustainability and materials characterization.

Publications Top Notes:

  • Multifunctional Nanoparticles with Superparamagnetic Mn(II) Ferrite and Luminescent Gold Nanoclusters for Multimodal Imaging
    • Authors: Casteleiro, B., Rocha, M., Sousa, A.R., Pereira, C., Farinha, J.P.S.
    • Year: 2023
    • Citations: 1
  • A Photo-Thermoelectric Twist to Wireless Energy Transfer: Radial Flexible Thermoelectric Device Powered by a High-Power Laser Beam
    • Authors: Maia, M., Pires, A.L., Rocha, M., Auguste, J.-L., Pereira, A.M.
    • Year: 2023
    • Citations: 2
  • Tailoring the Electron Trapping Effect of a Biocompatible Triboelectric Hydrogel by Graphene Oxide Incorporation towards Self-Powered Medical Electronics
    • Authors: Pereira, A.T., Rodrigues, C.R.S., Silva, A.C., Gonçalves, I.C., Pereira, A.M.
    • Year: 2023
    • Citations: 1
  • Landau theory-based relaxational modeling of first-order magnetic transition dynamics in magnetocaloric materials
    • Authors: Costa, R.M., Lovell, E., Almeida, R., Araújo, J.P., Belo, J.H.
    • Year: 2023
    • Citations: 5
  • Development of pH-Sensitive Magnetoliposomes Containing Shape Anisotropic Nanoparticles for Potential Application in Combined Cancer Therapy
    • Authors: Pacheco, A.R.F., Cardoso, B.D., Pires, A., Rodrigues, A.R.O., Castanheira, E.M.S.
    • Year: 2023
    • Citations: 6

Conclusion:

Dr. André Miguel Trindade Pereira exemplifies the qualities of a strong candidate for the Research for Best Researcher Award. His robust educational background, extensive teaching experience, and significant research contributions set him apart. By addressing areas such as publication visibility and community engagement, he could further enhance his profile. Overall, Dr. Pereira’s dedication to physics and his collaborative spirit make him a deserving candidate for this award.