Dr. Qingshan Pan | Materials Science | Best Researcher Award

Dr. Qingshan Pan | Jiangxi Science & Technology Normal University | China

Dr. Qingshan Pan, Professor at Jiangxi Science & Technology Normal University, is a distinguished researcher specializing in DNA nanomaterials, MOF nanozyme materials, and self-assembled nano/nanogel systems derived from traditional Chinese medicine components. His work focuses on developing antibacterial and anti-inflammatory nanomedicines, advanced wound dressings, and targeted tumor diagnostics and therapies. A recipient of funding from the National Natural Science Foundation of China and multiple provincial grants, Dr. Pan has authored over 20 SCI-indexed publications in leading journals such as Chemical Engineering Journal and ACS Applied Materials & Interfaces, contributing significantly to nanomedicine and precision therapeutics research.

Author Profile

Scopus

Education

Dr. Qingshan Pan’s academic journey began with a strong foundation in chemical engineering, earning his bachelor’s degree from the Department of Chemical Engineering and Technology, Central South University. His early studies nurtured a keen interest in material science, nanotechnology, and their biomedical applications. Driven by a passion for innovation, he pursued doctoral studies at the State Key Laboratory of Chemical Biology and Measurement, Hunan University, specializing in Analytical Chemistry, and graduated with his Ph.D. His doctoral training provided him with advanced expertise in nanoscale materials design, synthesis, and functionalization, particularly for healthcare applications. These formative years equipped him with a multidisciplinary skill set that integrates chemistry, biology, and materials science—an essential foundation for his later breakthroughs in nanomedicine.

Experience

Currently serving as a Professor at Jiangxi Science & Technology Normal University, Dr. Pan is actively involved in teaching, mentoring, and leading high-impact research projects. He has successfully secured funding from prestigious organizations, including the National Natural Science Foundation of China, the Jiangxi Province Outstanding Young Scholars Fund, the Jiangxi Province Natural Science Foundation, and the Education Department. Through these roles, he has developed innovative research programs that bridge fundamental nanoscience with real-world biomedical solutions. Beyond academia, Dr. Pan contributes to the growth of the scientific community by engaging in collaborations with other researchers, fostering interdisciplinary partnerships, and promoting the application of nanotechnology in medicine and healthcare.

Research Focus

Dr. Pan’s research portfolio is broad yet deeply specialized, encompassing DNA nanomaterials, metal–organic framework (MOF) nanozyme materials, and self-assembled nano/nanogel systems derived from traditional Chinese medicine components. These systems have been engineered for antibacterial and anti-inflammatory nanomedicines, advanced antibacterial dressings, and precision tumor diagnosis and therapy.

His innovative approach to combining traditional Chinese medicine with cutting-edge nanotechnology has led to the development of hybrid nanomaterials that exhibit unique bioactive properties, enhanced stability, and targeted delivery capabilities. By integrating DNA nanotechnology with MOF-based nanozymes, his work addresses key challenges in biomedical applications, such as targeted drug release, controlled therapeutic activity, and dual-function systems capable of both diagnosis and treatment. These contributions not only advance the frontiers of nanomedicine but also provide new strategies for combating bacterial infections, reducing inflammation, and improving cancer therapy outcomes.

Award and Recognition

Dr. Pan’s scientific achievements are reflected in his impressive publication record, with over 20 SCI-indexed papers in internationally renowned journals, including Chemical Engineering Journal and ACS Applied Materials & Interfaces. His work is recognized for its high citation value, innovative experimental design, and significant potential for translational application in clinical medicine. Receiving funding from multiple prestigious agencies underscores his reputation as a leading figure in nanomedicine research. His role as a principal investigator in national and provincial projects highlights his ability to conceive, lead, and execute complex research initiatives that meet rigorous scientific standards.

Impact and Influence

The impact of Dr. Pan’s research extends far beyond academic citations. His nanomedicine platforms have the potential to revolutionize how bacterial infections, inflammation, and tumors are diagnosed and treated. The antibacterial dressings developed in his lab could play a crucial role in preventing hospital-acquired infections and promoting faster wound healing. His tumor-targeted nanotherapies are paving the way for minimally invasive and highly specific cancer treatments, reducing side effects while improving efficacy. Furthermore, by integrating bioactive compounds from traditional Chinese medicine into modern nanocarriers, Dr. Pan is contributing to a new paradigm in personalized and culturally rooted healthcare innovation.

Publications

Transition Metal Sulfide-Based Nanozymes: From Design Strategies to Applications in Chronic Wound Healing

Author: Yuying Zhang, Renxi Li, XianXi Li, Pengwu Zheng, Wufu Zhu, Cunpeng Nie, Qingshan Pan
Journal: ACS Applied Nano Materials
Year: 2025

Review of Metal-Polyphenol Self-Assembled Nanoparticles: Synthesis, Properties, and Biological Applications in Inflammatory Diseases.

Author: Li Wan, Shizhe Li, Jiawei Du, Anqi Li, Yujie Zhan, Wufu Zhu, Pengwu Zheng, Dan Qiao, Cunpeng Nie, Qingshan Pan
Journal: ACS Biomaterials Science & Engineering
Year: 2025

Photothermally Enhanced Cascaded Nanozyme-Functionalized Black Phosphorus Nanosheets for Targeted Treatment of Infected Diabetic Wounds.

Author: Chunping Wen, Yan Zhang, Luogen Lai, Xuan Zhang, Yijun Liu, Qiuyan Guo, Rujue Peng, Yating Gao, Xufei Zhang, Yan He, Shan Xu, Dan Qiao, Pengwu Zheng, Qingshan Pan, Wufu Zhu
Journal: Advanced Healthcare Materials
Year: 2025

Conclusion

Dr. Qingshan Pan’s remarkable journey from his foundational studies in chemical engineering to his pioneering research in analytical chemistry and nanomedicine reflects a career marked by curiosity, dedication, and innovation. His expertise in designing DNA nanomaterials, MOF nanozyme platforms, and self-assembled nanogels bridges the gap between advanced material science and practical biomedical applications, addressing critical challenges in antibacterial, anti-inflammatory, and tumor-targeted therapies. Through his leadership in prestigious national and provincial research projects, his extensive scholarly publications, and his commitment to translating research into impactful solutions, Dr. Pan has firmly established himself as a trailblazer in interdisciplinary science. His work not only elevates the academic standing of Jiangxi Science & Technology Normal University but also contributes meaningfully to global advancements in nanotechnology and precision medicine. As his career progresses, Dr. Pan is poised to expand his influence, inspiring future scientists while continuing to innovate at the intersection of chemistry, biology, and medicine.

Mr. Haiqing Pei | Advanced Materials | Best Researcher Award

Mr. Haiqing Pei, Northwestern Polytechnical University, China

Assoc. Prof. Haiqing Pei of Northwestern Polytechnical University specializes in the strength and life assessment of aero-engine hot-end components under service conditions. Over the past five years, he has published 38 academic papers, including 30 as the first or corresponding author, in prestigious journals such as Corrosion Science, IJMS, IJF, and Scripta Materialia. His research has garnered 1,200 citations in the Scopus database and received recognition from leading academic teams. He has also applied for 16 national patents, with 7 granted, and registered 5 software copyrights, contributing significantly to the field of aero-engine reliability and durability.

Profile

Scopus

🎓 Early Academic Pursuits

Haiqing Pei’s journey into the world of engineering and materials science began with a strong academic foundation. With a keen interest in mechanical structures and material properties, he pursued rigorous studies that set the stage for his future contributions to aero-engine component research. His academic excellence and deep-rooted understanding of material strength and fatigue analysis positioned him for a career dedicated to enhancing the performance and durability of aerospace systems.

💼 Professional Endeavors

Currently serving as an Associate Professor at Northwestern Polytechnical University, China, Haiqing Pei has established himself as a leading expert in the strength and life assessment of aero-engine hot-end components under service conditions. His research focuses on analyzing material degradation, fatigue, and corrosion behavior, aiming to improve the longevity and reliability of critical aerospace components. Through his professional engagements, he has collaborated with academic institutions, industry leaders, and government research agencies, further solidifying his reputation in the field.

🔬 Contributions and Research Focus

Over the past five years, Haiqing Pei has made significant contributions to the field of aerospace engineering, particularly in material behavior under extreme service conditions. His research covers:

Strength and Life Assessment: Investigating how hot-end aero-engine components respond to prolonged operational stress.
Corrosion and Fatigue Studies: Understanding the microstructural changes that affect material degradation.
Advanced Materials Engineering: Developing innovative solutions to enhance material resilience in high-temperature environments.

He has authored 38 research papers in esteemed international journals, including Corrosion Science, International Journal of Mechanical Sciences (IJMS), International Journal of Fatigue (IJF), Scripta Materialia (SCT), and Materials Science and Engineering A (MSEA). Impressively, he has been the first or corresponding author on 30 of these papers, with 17 published in Q1 Top journals and 10 in Q2 journals.

🏆 Accolades and Recognition

Haiqing Pei’s scholarly contributions have earned him widespread recognition in the academic and research community:

1,200 citations in the Scopus database, demonstrating the global impact of his work.
Positive references from multiple academician and fellow research teams, both in China and internationally.
16 national invention patent applications, of which 7 patents have been authorized.
5 software copyrights registered, showcasing his expertise in developing computational tools for aerospace engineering.

His research excellence has positioned him as a thought leader in aero-engine component durability, influencing studies conducted by peers and industry experts worldwide.

Publication Top Notes

Fatigue fracture mechanism and life prediction of nickel-based single crystal superalloy with film cooling holes considering initial manufacturing damage

Author: F., Li, Fei, Z., Wen, Zhixun, L., Luo, Lei, … H., Pei, Haiqing, Z., Yue, Zhufeng

Journal: International Journal of Fatigue,

Year: 2025

First Principles Study on Effect of Al-O Element Aggregation on Oxidation of a Ni-based Single Crystal Superalloy

Author: H., Pei, Haiqing, J., Xiao, Jingbo, W., Li, Wei, … Z., Wen, Zhixun, Z., Yue, Zhufeng

Journal: Chinese Society of Corrosion and Protection,

Year: 2025

Investigation on high temperature fatigue-oxidation behavior of Ni-based single crystal with film cooling holes considering arrangement effect

Author: Z., Li, Zhenwei, C., Wang, Cheng, Z., Wen, Zhixun, … P., He, Pengfei, Z., Yue, Zhufeng

Journal: Engineering Fracture Mechanics

Year: 2024

Qingshan Pan | Materials Science | Best Researcher Award