Qinggang Wang | Polymer Chemistry | Best Researcher Award

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Prof. Dr. Qinggang Wang | Polymer Chemistry | Best Researcher Award

Prof. Dr. Qinggang Wang | Qingdao Institute of Bioenergy and Bioprocess Technology | China

Prof. Dr. Qinggang Wang , is a distinguished professor at the Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences, specializing in sustainable materials science, polyolefin rubbers synthesis, and chiral polymers synthesis. He earned his B.S. degree in Chemistry from Zhengzhou University in 2005 under the supervision of Prof. Maoping Song and completed his Ph.D. at the Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, in 2010 with Prof. Yong Tang. From 2011 to 2015, he conducted postdoctoral research at the Max-Planck-Institut für Kohlenforschung, Germany, under the guidance of Nobel Laureate Prof. Dr. Benjamin List, where he advanced expertise in catalytic asymmetric synthesis and polymerization chemistry. Since 2015, he has served as a professor at CAS, where his pioneering work has contributed to the development of chemically recyclable polymers, circular materials economy strategies, and innovative catalytic systems for polymerization and depolymerization. His scholarly impact is demonstrated by 79 publications, 1,274 citations from 816 documents, and an h-index of 20. His notable publications in Green Chemistry, Macromolecules, ACS Sustainable Chemistry & Engineering, and JACS highlight groundbreaking contributions, including chemical recycling of PLA plastics, asymmetric kinetic resolution polymerization, and transesterification catalysis for sustainable polyesters. Recognized with the “ZhuLiYueHua Fellowship” (2009) and the “Hundred-Talent Program” award of CAS (2015), Prof. Wang continues to lead research bridging polymer chemistry with sustainability, contributing transformative solutions to global challenges in materials science and green chemistry.

Profile:  Scopus | Orcid

Featured Publications

  • Chai, M., Xu, G., Yang, R., Sun, H., & Wang, Q. (2024). Degradation product-promoted depolymerization strategy for chemical recycling of poly(bisphenol A carbonate). Molecules, 29(3), 640.

  • Han, Z., Zhang, Y., Wang, L., Zhu, G., Kuang, J., Zhu, G., Xu, G., & Wang, Q. (2023). 3,4-Enhanced polymerization of isoprene catalyzed by side-arm tridentate iminopyridine iron complex with high activity: Optimization via response surface methodology. Polymers, 15(5), 1231.

  • Zhao, M., Ma, Y., Zhang, X., Wang, L., Zhu, G., & Wang, Q. (2022). Synthesis, characterization and catalytic property studies for isoprene polymerization of iron complexes bearing unionized pyridine-oxime ligands. Polymers, 14(17), 3612.

  • Mahmood, Q., Xu, G., Zhou, L., Guo, X., & Wang, Q. (2020). Chiral 1,5,7-triazabicyclo[4.4.0]dec-5-ene (TBD)-catalyzed stereoselective ring-opening polymerization of rac-lactide: High reactivity for isotactic enriched polylactides (PLAs). Polymers, 12(10), 2365.

  • [Author(s)]. (2017, February 9). Solid-phase synthesis for novel nerve agent adducted nonapeptides as biomarkers. Tetrahedron Letters. [Details on volume, issue, page range, and DOI are needed for full citation].

 

 

Dr. Yinfu Luo | Polymer Chemistry | Material Chemistry Award

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Dr. Yinfu Luo | Polymer Chemistry | Material Chemistry Award

Dr. Yinfu Luo , Polymer Chemistry, Associate Professor at Sichuan University, China 

Dr. Yinfu Luo is an Associate Professor at the State Key Laboratory of Advanced Polymer Materials, Sichuan University. His research focuses on flame retardancy and high-performance modification of polyimide and polyurethane, as well as ablation and heat resistance of phenolic resin and silicone rubber. Dr. Luo has contributed to the development of advanced polymer materials with enhanced thermal stability and mechanical properties, addressing critical challenges in aerospace and defense applications. His work has been published in reputable journals, reflecting his commitment to advancing polymer science and engineering.

Professional Profile : 

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Summary of Suitability for Award:

Dr. Yinfu Luo’s research is deeply rooted in the chemistry of advanced polymer materials, particularly focusing on polyimides, polyurethanes, phenolic resins, and silicone rubbers. His work addresses crucial challenges in the synthesis, modification, and performance enhancement of these materials. A significant part of Dr. Luo’s research involves flame retardancy and high-performance modifications to improve the heat resistance and mechanical properties of polymers—key issues in material chemistry with applications in aerospace, defense, and electronics. Dr. Luo’s consistent publication in prestigious journals like Industrial & Engineering Chemistry Research, Polymer, and Journal of Applied Polymer Science demonstrates recognition and impact within the material chemistry community. Dr. Yinfu Luo exemplifies the qualities that the “Material Chemistry Award” aims to recognize: innovative research, strong scientific contributions, and practical advancements in polymer material chemistry. His expertise in flame retardant polymers and thermal-resistant materials, combined with a robust publication record and focus on real-world applications, makes him a highly suitable candidate. Awarding Dr. Luo would acknowledge his valuable contributions to advancing the frontiers of material chemistry and inspire continued innovation in the field.

🎓Education:

Dr. Luo completed his undergraduate studies in Materials Chemistry at Zhengzhou University from 2012 to 2016. He then pursued a Master’s degree in Materials Science at the Polymer Research Institute of Sichuan University from 2016 to 2019. Continuing at the same institute, he earned his Ph.D. in Materials Science between 2019 and 2022. His academic journey has been marked by a strong focus on polymer materials, laying a solid foundation for his subsequent research endeavors.

🏢Work Experience:

Since July 2022, Dr. Luo has been serving as a full-time postdoctoral researcher at the Polymer Research Institute of Sichuan University. In this role, he has been actively involved in projects related to the design and fabrication of high-performance polymer foams and resins. His work includes the development of green flame-retardant polyurethane foams and high-strength rigid polyimide materials, contributing to national projects in aerospace and defense sectors.

🏅Awards: 

While specific awards and honors are not listed in the available information, Dr. Luo’s contributions to polymer science, particularly in the development of flame-retardant and high-performance materials, have been recognized through publications in esteemed journals and involvement in significant national projects. His work supports critical applications in aerospace and defense, indicating a high level of trust and recognition in his expertise.

🔬Research Focus:

Dr. Luo’s research centers on the development of advanced polymer materials with enhanced thermal and mechanical properties. His work includes the design and synthesis of flame-retardant polyurethane foams, high-strength polyimide foams, and heat-resistant phenolic resins. By constructing dual crosslinking network structures and exploring active crosslinking strategies, he aims to improve the performance of polymer foams for applications in extreme environments. His research addresses the need for materials that can withstand high temperatures and mechanical stress, particularly in aerospace and defense industries.

Publication Top Notes:

1. Constructing a Carborane-Hybridized Cross-Linked Network Endows Phenolic Resin with Excellent Structural Thermo-Oxidative and Ablative Resistance

2. Constructing Layered Structure Improves Thermal Protection Performance of Silicone Rubber-Based Composites under Coupled Mechanical-Thermal-Oxidative Conditions

3. Lightweight Copolymerized Polyimide Foams Containing Trifluoromethyl and Siloxane Moieties for Thermal Insulation and Hydrophobic Applications

4. Tunable 1T-Phase MoS₂/CNT Reinforced Carbon Foams for Enhanced Low-Frequency Electromagnetic Wave Absorption

5. Fabrication of Lightweight Polyimide Aerogels with Excellent Mechanical and Thermal Properties by Changing the Dianhydride Structures

 

 

Assist. Prof. Dr. Jonghyun Eun | Polymer Chemistry | Best Researcher Award

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Assist. Prof. Dr. Jonghyun Eun | Polymer Chemistry | Best Researcher Award

Assist. Prof. Dr. Jonghyun Eun , Polymer Chemistry , Professor at Kumoh National Institute of Technology, South Korea

Dr. Jong-Hyun Eun is an Assistant Professor in the Department of Materials Design Engineering at Kumoh National Institute of Technology, Republic of Korea. With a strong background in textile engineering and advanced fiber materials, he specializes in carbon fiber technologies, piezoelectric nanofibers, and composite materials. He earned his integrated Master’s and Ph.D. from Yeungnam University under the mentorship of Prof. Joon-Seok Lee. His postdoctoral research journey included positions at Arizona State University and Yeungnam University, where he advanced his expertise in carbon fiber reinforced plastics (CFRPs), graphene-metal composites, and electrospun nanofibers. Dr. Eun has hands-on experience in fabricating and analyzing high-performance composites and energy harvesting materials, making him a rising researcher in the field. He also contributes actively to teaching, mentoring students in textile and fashion materials design. His recent publications highlight innovations in hydrogen storage, nanofiber processing, and sustainable composite development.

Professional Profile : 

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Summary of Suitability for Award:

Dr. Jong-Hyun Eun demonstrates a strong and dynamic research profile with focused expertise in carbon fiber technology, composite materials, piezoelectric nanofibers, and textile engineering—areas that are highly relevant to both academic advancement and industrial applications. His research is deeply interdisciplinary, integrating materials science, nanotechnology, and energy harvesting, aligning well with global trends in sustainable and smart materials. Dr. Jong-Hyun Eun is highly suitable for nomination for the “Best Researcher Award”. He brings together innovative research, technical excellence, and cross-disciplinary impact. His rapid trajectory from graduate studies to international postdoctoral work and faculty appointment, combined with a productive publication record and active teaching, makes him a strong contender. His ongoing contributions in composite materials and energy harvesting nanofibers address current scientific and technological challenges, fulfilling the criteria for excellence in research.

🎓Education:

Dr. Jong-Hyun Eun holds an integrated Master’s and Doctoral degree in Textile Engineering and Technology from Yeungnam University (2015–2021), where he conducted research under Prof. Joon-Seok Lee. His doctoral work focused on the development of polyethylene-based carbon fibers and composite materials. Prior to that, he completed a B.S. in Fiber and New Materials Design Engineering (2009–2015) at the same university, also under Prof. Lee’s guidance. Throughout his academic journey, Dr. Eun built a solid foundation in textile science, polymer engineering, and nanotechnology. His studies covered a range of topics from sulfonation processes under hydrostatic pressure to advanced electrospinning systems. His rigorous academic training has equipped him with both theoretical knowledge and extensive laboratory experience, paving the way for impactful research in fiber engineering and sustainable composite technologies.

🏢Work Experience:

Dr. Jong-Hyun Eun’s professional experience spans academia and cutting-edge research in fiber science and materials engineering. He currently serves as an Assistant Professor at Kumoh National Institute of Technology. Previously, he was a Postdoctoral Researcher at Arizona State University (2021–2023), focusing on material design and composite innovation. Before that, he held a postdoctoral position at Yeungnam University (2021), continuing his work in textile engineering. During his graduate studies, he also taught various courses at Korea Polytechnic, such as high-tech fiber, woven fabric formation, and textile material analysis. His hands-on experience includes fabricating carbon fiber composites through various molding techniques, developing piezoelectric nanofibers via electrospinning, and analyzing graphene-metal composites. Dr. Eun’s diverse research roles and teaching responsibilities have allowed him to bridge material science with real-world applications.

🏅Awards: 

While specific awards are not listed in the profile provided, Dr. Jong-Hyun Eun’s academic and professional achievements reflect a career of high distinction. Earning competitive postdoctoral positions at prestigious institutions like Arizona State University and Yeungnam University speaks to his expertise and scholarly recognition. His continuous collaboration with renowned Professor Joon-Seok Lee and multiple first-author publications in high-impact journals such as Scientific Reports, Materials & Design, and International Journal of Hydrogen Energy highlight his contributions to materials science and textile engineering. His role as a lead contributor in cutting-edge research on carbon fibers and composite materials demonstrates his leadership and innovation. As his career progresses, he is poised to receive further accolades in recognition of his impactful research and teaching in advanced materials engineering.

🔬Research Focus:

Dr. Jong-Hyun Eun’s research is centered on advanced fiber and composite materials, with a strong focus on sustainability and performance. His expertise includes carbon fiber development from polyethylene, toughening mechanisms in carbon fiber reinforced plastics (CFRPs), and mechanical/impact resistance analysis. He is also deeply engaged in developing piezoelectric nanofiber energy harvesting devices using electrospinning techniques, aiming at efficient wearable energy solutions. Additionally, his research extends to graphene-metal composites, exploring their structural and thermal properties. Through multidisciplinary approaches, Dr. Eun investigates reaction mechanisms, interfacial behavior, and processing-structure-property relationships in fiber-reinforced materials. His work is driven by a commitment to innovation in energy materials, lightweight composites, and next-generation textile engineering, making significant contributions to both academia and industry.

Publication Top Notes:

Effect of MWCNT content on the mechanical and piezoelectric properties of PVDF nanofibers
Citations: 83

Effect of low melting temperature polyamide fiber-interlaced carbon fiber braid fabric on the mechanical performance and fracture toughness of CFRP laminates
Citations: 32

Evaluation of carbon fiber and p-aramid composite for industrial helmet using simple cross-ply for protecting human heads
Authors: S. Kim, J. Lee, C. Roh, J. Eun, C. Kang
Citations: 32

Study on polyethylene-based carbon fibers obtained by sulfonation under hydrostatic pressure
Citations: 14

Effect of the viscosity of polyvinyl chloride resin and weaving structures of polyester fabric on the off-axis mechanical properties of PVC coated fabric
Citations: 9

Study on the NCO index and base knitted fabric substrates on the thermal, chemical, and mechanical properties of solvent-less formulations polyurethane artificial leather
Citations: 8

A study on mechanical properties and thermal properties of UHMWPE/MWCNT composite fiber with MWCNT content and draw ratio
Citations: 7

Effect of fabricating temperature on the mechanical properties of spread carbon fiber fabric composites
Citations: 7

Effect of toughened polyamide-coated carbon fiber fabric on the mechanical performance and fracture toughness of CFRP
Citations: 6

Effect of toughened polyamide/carbon fiber interlace braid fabric on the mechanical performance of CFRP laminates
Citations: 2

Mrs. Katsiaryna Khainskaya | Polymer Chemistry | Best Researcher Award

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Mrs. Katsiaryna Khainskaya | Polymer Chemistry | Best Researcher Award

Mrs. Katsiaryna Khainskaya , Polymer Chemistry , Junior researcher at Institute of Chemistry of New Materials of the National Academy of Sciences of Belarus, Belarus

Katsiaryna Khainskaya 🇧🇾 is a dynamic Junior Researcher at the Institute of Chemistry of New Materials, National Academy of Sciences of Belarus. With a strong foundation in chemistry and nanotechnology, she specializes in synthesizing polysaccharide derivatives with phenolic acids for advanced biomedical applications. Fluent in Russian and Belarusian, and proficient in English, she brings interdisciplinary expertise to the development of functional materials for drug delivery. She is skilled in atomic force microscopy, dynamic light scattering, spectrophotometry, and colloidal chemistry. Her active participation in international conferences and collaborative research projects highlights her global scientific engagement. A member of the Council of Young Scientists, she contributes to innovations in biopolymer-based materials and encapsulation techniques. Her recent work includes the development of multifunctional wound-healing agents and nanocomposites with synergistic antibacterial effects. Passionate, analytical, and dedicated, Katsiaryna is emerging as a promising scientist in the fields of nanobiomaterials and nanochemistry.

Professional Profile :         

Orcid 

Summary of Suitability for Award:

Katsiaryna Khainskaya, a promising junior researcher at the Institute of Chemistry of New Materials of the National Academy of Sciences of Belarus, has demonstrated a deep commitment to advancing nanobiomaterials and polysaccharide-based functional systems. Her research combines interdisciplinary expertise in nanotechnology, colloidal chemistry, radiation chemistry, and biomedicine. She has contributed to several innovative projects involving chitosan derivatives, silver nanoparticles, and mucoadhesive systems for drug delivery and wound healing. . She has actively participated in international conferences, received a research diploma, and is involved in multiple ongoing projects aimed at developing smart, sustainable biomedical materials. Her technical skills span AFM, DLS, lyophilization, and spectroscopy, evidencing strong laboratory proficiency. Katsiaryna Khainskaya is a highly suitable candidate for the “Best Researcher Awards”. Despite being early in her career, her research demonstrates innovation, interdisciplinarity, and societal relevance. Her contributions to nanobiomaterials and biomedical polymers are not only academically sound but hold translational potential for healthcare applications. She exemplifies the qualities of a rising scientific leader and merits recognition for her impactful and forward-thinking research.

🎓Education:

Katsiaryna earned her degree in Chemistry from Belarusian State University (2018–2023), with a specialization in radiation chemistry and environmental sciences.  Her academic training covered a comprehensive range of subjects including inorganic, organic, analytical, and physical chemistry, alongside advanced topics such as nanochemistry, dosimetry, colloidal chemistry, and radiation safety. Her thesis focused on the “Preparation and properties of complexes based on alginate-Ag nanocomposites with enrofloxacin,” combining nanotechnology and pharmacology. She also undertook specialized professional development, including a certificate program on radioactive waste processing (Rosatom Technical Academy, 2021) and a 2024 seminar on mucoadhesive chitosan nanoparticles at the Institute of High Molecular Compounds, St. Petersburg.  Her interdisciplinary education has equipped her with the necessary theoretical and technical skills to contribute to the development of innovative drug delivery systems and advanced materials for biomedical and environmental applications.

🏢Work Experience:

Katsiaryna Khainskaya began her research career as a Trainee Junior Researcher at the Institute of Chemistry of New Materials of the NAS of Belarus in April 2023, quickly progressing to Junior Researcher by August 2023.Her core responsibilities include the synthesis of polysaccharide derivatives and their functional characterization using techniques such as AFM, optical microscopy, and electrophoretic mobility. She has hands-on experience in developing colloidal systems with silver nanoparticles for drug delivery and encapsulation of biologically active substances. As a member of the Council of Young Scientists, she also engages in research planning and youth science promotion. Her projects span antibiotic nanocomposites for aquaculture, antioxidant-rich biopolymer carriers, and mucoadhesive biomedical coatings. She has presented her work at international conferences in Spain, Russia, and across Belarus and Tajikistan. Her dedication and rapid growth reflect a strong commitment to scientific excellence and interdisciplinary collaboration.

🏅Awards: 

Katsiaryna has received multiple recognitions for her scientific contributions  In January 2025, she secured 3rd place in the “Young Scientist of the IChNM of NAS of Belarus” competition. She earned a professional development certificate from Rosatom Technical Academy in radioactive waste treatment (2021)  and has participated in several prestigious conferences and training events. Notable among them are her presentation at the 13th International Colloids Conference in Spain (2024)  and her active participation in youth science forums, such as “Youth in Science” (2023, 2024) and the School of Chemists of the CIS in Dushanbe (2023).She also took part in Belarus State Technological University’s 89th faculty conference (2025), showcasing smart multilayer biomedical coatings. Each recognition reflects her active engagement with contemporary chemical research and her growing reputation in the field of functional nanobiomaterials and nanotechnology.

🔬Research Focus:

Katsiaryna’s research is centered on the synthesis and application of polysaccharide-based nanomaterials, particularly chitosan and alginate derivatives. Her work focuses on combining these biopolymers with phenolic acids and silver nanoparticles to create functional materials with enhanced antioxidant, antimicrobial, and drug delivery capabilities. She has developed systems for encapsulating biologically active compounds to improve their stability and targeted delivery, contributing to innovative wound healing and antibacterial treatments.  Her current projects include multilayer mucoadhesive patches for oral diseases, encapsulated chlorophyll systems, and antimicrobial nanocomposites for aquaculture. She’s also involved in industrial collaborations, such as the development of holographic foil materials.  Her interdisciplinary approach integrates chemistry, nanotechnology, and biology, aiming to create next-generation biofunctional materials for environmental, medical, and pharmaceutical applications. Her contributions are paving the way for biopolymer innovations in healthcare and sustainable material science.

Publication Top Notes:

1. Chitosan-Gallic Acid Conjugate with Enhanced Functional Properties and Synergistic Wound Healing Effect

2. Study of the Interaction Between Biogenic Alginate-Ag Nanoparticles and Enrofloxacin: Combinatory Antibacterial Effect and Nanocomposite Formation