Thet Naing Myint | Chemical Engineering | Research Excellence Award

Published on by Analytical Chemistry

Dr. Thet Naing Myint | Chemical Engineering | Research Excellence Award

MUCTR | Russia

Dr. Thet Naing Myint is a Chemical Engineer at D.I. Mendeleyev University of Chemical Technology of Russia, specializing in advanced inorganic binders and corrosion-resistant composite cement systems. He completed his PhD in Chemical Engineering with a dissertation focused on the development of composite cements with high corrosion resistance. Building on this foundation, he is currently pursuing a Doctor of Chemical Engineering degree, investigating the physicochemical principles governing the design of durable composite binders for concrete applications. His research addresses critical challenges in modern construction, particularly the degradation of concrete structures in aggressive chemical and environmental conditions. Dr. Myint integrates material chemistry, binder technology, and applied engineering to enhance durability, sustainability, and service life of concrete infrastructure. He has published his findings in peer-reviewed international journals, contributed to scholarly book publications, and holds patents related to corrosion-resistant cement formulations. Through academic and industrial collaborations in Russia and Myanmar, his work aims to translate fundamental research into practical solutions for global infrastructure development and long-term structural resilience.

View ORCID Profile

Featured Publication

Vijaya Sarangthem | Biochemistry | Best Researcher Award

Published on by Analytical Chemistry

Dr. Vijaya Sarangthem | Biochemistry | Best Researcher Award

Research Professor | Kyungpook National University | South Korea

Dr. Sarangthem Vijaya Devi is an innovative biomedical scientist with over twelve years of expertise in biopolymer-based drug delivery, regenerative medicine, and nanotechnology, focusing on the design and development of elastin-like polypeptide (ELP)–based biomaterials for targeted therapeutics. Her doctoral research at Kyungpook National University, South Korea, involved constructing IL-4 receptor–targeting ELP systems for precise drug delivery, laying the foundation for her pioneering work in tumor-targeted cancer therapy and gene delivery. As a postdoctoral fellow, she led the development of multivalent ELP nanoparticles and depot systems, optimizing pharmacokinetics and tissue biodistribution, and establishing platforms for enhanced therapeutic efficacy. At AIIMS, New Delhi, Dr. Vijaya Devi advanced regenerative medicine applications by developing self-assembling ELP hydrogels and 3D scaffolds for mesenchymal stem cell culture, differentiation, and tissue regeneration. She further integrated 3D bioprinting technologies to create artificial tissue models for high-throughput drug screening and preclinical evaluation. Her ongoing work as a visiting research professor at Kyungpook National University focuses on ELP-driven 3D culture platforms, enabling scalable and reproducible organoid and spheroid models for precision medicine. Dr. Vijaya Devi’s research portfolio includes over 16 high-impact publications, several as corresponding or first author, highlighting her contributions to nanoparticle engineering, biomaterial optimization, and translational therapeutics. She has contributed to patents on ELP-based hydrogels for tissue regeneration and nanocarriers for oncology drug delivery, demonstrating the translational potential of her work. Recognized with multiple awards, including the Best Article Award and DST Fellowship, her research bridges fundamental science with industry applications, emphasizing scalability, regulatory compliance, and interdisciplinary collaboration. Her expertise encompasses gene delivery systems, molecular imaging, biomaterials engineering, and organoid culture, making her a leading researcher in precision therapeutics. Dr. Vijaya Devi continues to drive innovations in ELP biomaterials for cancer therapy, tissue engineering, and high-throughput drug discovery, positioning her as a global leader in biomedical research and translational medicine.

Profiles : Scopus | ORCID | Google Scholar | Research Gate

Featured Publications

  • Lee, Y.-J., Hong, J., Seo, B.-Y., Lee, B.-H., Sarangthem, V.*, & Park, R.-W. (2025). Strategic optimization of nanoparticle characteristics to enhance tumor targeting and doxorubicin delivery. International Journal of Nanomedicine, 20, 6357–6378.

  • Hong, J., Sim, D., Lee, B.-H., Sarangthem, V.*, & Park, R.-W. (2024). Multifunctional elastin-like polypeptide nanocarriers for efficient miRNA delivery in cancer therapy. Journal of Nanobiotechnology, 22(1), 293.

  • Sarangthem, V., Sharma, H., Mendiratta, M., Sahoo, R. K., Park, R.-W., Kumar, L., Singh, T. D., & Mohanty, S. (2022). Application of bio-active elastin-like polypeptide on regulation of human mesenchymal stem cell behavior. Biomedicines, 10(5), 1151.

  • Sarangthem, V.*, Sharma, H., Goel, R., Ghose, S., Park, R.-W., Mohanty, S., Chaudhuri, T. K., Dinda, A. K., & Singh, T. D. (2022). Application of elastin-like polypeptide (ELP) containing extracellular matrix (ECM) binding ligands in regenerative medicine. International Journal of Biological Macromolecules.

  • Sarangthem, V., Yi, A., Kim, Y., Rehemtulla, A., Lee, B.-H., Jeon, Y. H., Singh, T. D., & Park, R.-W. (2021). Therapeutic effect of IL4 receptor targeting pro-apoptotic peptide (AP1-ELP-KLAK) in glioblastoma tumor model. International Journal of Nanomedicine, 16, 5039–5052.

 

Zhongsheng Wang | Chemical Engineering | Best Researcher Award

Published on by Analytical Chemistry

Mr. Zhongsheng Wang | Chemical Engineering | Best Researcher Award

Central South University, China

👨‍🎓Profiles

🔬 Academic and Professional Background

Mr. Zhongsheng Wang is a Doctoral Candidate at Central South University, specializing in lithium battery electrolyte research. His academic journey has been marked by significant contributions to battery technology and regulation. His work has led to publications in high-impact journals, reflecting his dedication to advancing the field of energy storage.

⚡ Research and Innovations

Mr. Wang focuses on lithium battery electrolytes, with a particular interest in low-temperature lithium battery technology. His research explores novel strategies to improve battery performance, efficiency, and durability in extreme conditions. He has contributed to understanding battery interfacial reactions, proposing the bond-level control theory for electrode-electrolyte interfaces.

🏆 Completed/Ongoing Research Projects

His research spans various aspects of battery technology, including battery regulation techniques. As part of the Central South University Graduate Innovation Program, he has led multiple projects aimed at improving lithium battery performance in low-temperature environments.

📊 Citation Index and Contributions

Mr. Wang’s research has been recognized in the scientific community, with his work accumulating 8 citations. He has successfully analyzed battery system evolution processes and developed multiple low-temperature lithium battery systems, contributing to advancements in battery theory.

📑 Patents and Publications

Mr. Wang has published several papers in prestigious journals, including Advanced Functional Materials, Energy Material Advances, EcoMat, Journal of Alloys and Compounds, and Chemical Science. His innovative research has also resulted in two patents, further demonstrating his impact in the field.

🤝 Collaborations

Mr. Wang has collaborated with researchers on multiple studies, leading to publications in renowned journals such as Advanced Functional Materials and Colloids and Interface Chemistry in Chemical Science. These collaborations have strengthened the research and development of next-generation lithium batteries.

🔍 Areas of Research

  • Lithium Battery Electrolytes

  • Low-Temperature Lithium Battery Technology

  • Electrode-Electrolyte Interface Reactions

  • Battery Regulation Techniques

🌟 Future Contributions

Mr. Wang’s research continues to push the boundaries of battery technology, particularly in developing novel electrolyte formulations that enhance lithium battery performance at low temperatures. His work is expected to have a lasting impact on energy storage solutions, paving the way for next-generation batteries with improved efficiency and reliability.

📖Notable Publications

Peng Yao | Surface Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Prof. Peng Yao | Surface Chemistry | Best Researcher Award

Shandong University, China

👨‍🎓Profiles

🏛️ Early Academic Pursuits

Prof. Peng Yao embarked on his academic journey at Northeastern University, where he pursued a Bachelor’s degree (1998-2002) in Mechanical Engineering and Automation. His keen interest in mechanical systems and automation drove him to further specialize in Mechanical Manufacturing and Automation, earning his Master’s degree (2002-2005) from the same university. His passion for research and advanced engineering led him to Tohoku University, Japan, where he obtained his Ph.D. in Nanomechanics (2008-2011). This academic path equipped him with a deep understanding of mechanical structures, automation techniques, and nanomechanical properties, shaping his future research endeavors.

🏢 Professional Endeavors

Prof. Yao is currently a Professor at the School of Mechanical Engineering, Shandong University, China. His career has been marked by an extensive engagement with mechanical engineering, precision manufacturing, and automation. His work focuses on integrating advanced nanomechanics principles into modern manufacturing techniques, bridging the gap between theoretical research and industrial applications. Over the years, he has contributed to the enhancement of automated manufacturing systems, precision engineering, and mechanical design, ensuring efficiency and innovation in the field.

🔬 Contributions and Research Focus

Prof. Yao’s research primarily revolves around nanomechanics, with a strong focus on material behavior at the nanoscale. His expertise extends to precision manufacturing, material engineering, and automation in mechanical systems. His studies have led to advancements in high-performance materials, micro-manufacturing processes, and AI-driven automation systems. By integrating nanomechanical insights into manufacturing and automation, his research has paved the way for innovative solutions in industrial production, robotics, and material science. His work plays a crucial role in developing next-generation materials with enhanced strength, flexibility, and durability.

🌍 Impact and Influence

Prof. Yao’s contributions have had a far-reaching impact on both academia and industry. His research in nanomechanics and automation has influenced the development of high-precision industrial applications, leading to the improvement of manufacturing efficiency and product reliability. His cross-border collaborations, particularly between China and Japan, have strengthened global research partnerships in mechanical engineering. Beyond research, he has inspired and mentored a new generation of engineers and researchers, contributing to the global advancement of mechanical automation and material science.

📖 Academic Citations & Recognitions

Prof. Yao's scholarly contributions have been widely recognized through numerous academic citations and research publications. His work is frequently referenced in studies related to nanomechanical materials, automation systems, and precision engineering. His publications have contributed significantly to scientific advancements in mechanical behavior at the nanoscale, strengthening his reputation as a leading researcher in the field. His research has gained attention in high-impact mechanical engineering and materials science journals, reflecting his influence in advancing industrial and scientific applications.

🛠️ Technical Skills

With an extensive background in mechanical engineering and nanomechanics, Prof. Yao possesses a strong command of advanced computational tools and experimental techniques. His expertise includes computational nanomechanics, finite element analysis (FEA), robotics and automation, and high-precision manufacturing systems. His skills in integrating artificial intelligence with mechanical automation have positioned him at the forefront of technological advancements in intelligent manufacturing. His technical proficiency allows him to develop cutting-edge solutions for industrial applications, ensuring greater efficiency and accuracy in engineering processes.

🎓 Teaching Experience

As a professor at Shandong University, Prof. Yao has played a vital role in shaping the academic and professional careers of his students. His teaching focuses on advanced mechanical design, automation engineering, and nanomechanics, equipping students with both theoretical knowledge and practical applications. Through research guidance and mentorship, he has helped numerous graduate and doctoral students achieve academic excellence and industry readiness. His approach to education bridges the gap between scientific research and industrial needs, ensuring that his students remain at the forefront of engineering innovation.

🚀 Legacy and Future Contributions

Prof. Peng Yao’s legacy is defined by his pioneering work in mechanical automation and nanomechanics, contributing significantly to the progress of modern manufacturing technologies. Looking ahead, his research aims to develop AI-driven automation systems, enhance nanomaterial applications, and foster global research collaborations. His commitment to scientific advancement and education ensures that his contributions will continue to shape the future of mechanical engineering and precision manufacturing. Through his work, he is not only pushing the boundaries of technology but also inspiring the next generation of researchers to explore the possibilities of nanomechanics and intelligent automation.

📖Notable Publications

Grinding quality evaluation and removal mechanism of resin-coated SiC and 2.5D-C-SiCs surface strategies
Authors: S. Qu, L. Li, Y. Yang, Z. Yin, P. Yao
Journal: Tribology International
Year: 2024

Intelligent rolling bearing compound fault diagnosis based on frequency-domain Gramian angular field and convolutional neural networks with imbalanced data
Authors: F. Zhang, P. Yao, X. Geng, M.S. Jiang, L. Jia
Journal: Journal of Vibration and Control
Year: 2024

Laser-assisted water jet machining of high quality micro-trap structures on stainless steel surfaces
Authors: L. Liu, P. Yao, D. Chu, S. Qu, C. Huang
Journal: Chinese Optics
Year: 2024

Temperature field in the crack-free ductile dry grinding of fused silica based on wheel wear topographies
Authors: W. Wang, Z. Li, H. Yin, S. Yu, P. Yao
Journal: Journal of Materials Processing Technology
Year: 2024

Ultra-precision grinding damage suppression strategy for 2.5D-Cf-SiCs by resin coating protection
Authors: L. Li, S. Qu, Y. Yang, G. Peng, Z. Yin
Journal: Tribology International
Year: 2024

Effect of arc deposition process on mechanical properties and microstructure of TiAlSiN gradient coatings
Authors: L. Ji, H.L. Liu, C. Huang, Y. Liu, P. Yao
Journal: Ceramics International
Year: 2024