Hui Li | Drug Delivery Systems | Best Researcher Award

Dr. Hui Li | Drug Delivery Systems | Best Researcher Award

Woosuk University | South Korea

Dr. Hui Li is a distinguished medical scientist and otolaryngologist whose work bridges clinical medicine, translational research, and pharmaceutical innovation. He earned his Ph.D. in Translational Medicine from Seoul National University College of Medicine in Korea, where his research focused on the molecular mechanisms underlying hearing loss and radiation-induced cellular changes. Prior to his doctoral training, he completed both his Master’s and Bachelor’s degrees in Clinical Medicine from Yanbian University of Medicine in China, establishing a strong foundation in clinical diagnostics, therapeutic approaches, and patient-centered medical care.Dr. Li’s professional journey reflects an impressive progression from clinical expertise to cutting-edge biomedical research. He began his career as a medical doctor and otolaryngologist at Yanbian Yongjeong National Hospital, where he honed his clinical acumen in diagnosing and treating ear, nose, and throat disorders. His clinical excellence led him to serve as a resident and research fellow in the Department of Otolaryngology at the Affiliated Hospital of Yanbian University of Medicine, where he began integrating research into his clinical practice. He later worked as a specialist at the Yanbian National Ophthalmology & Otolaryngology Hospital, focusing on complex cases of auditory and vestibular dysfunction. These formative years in medical practice equipped him with invaluable clinical insight that continues to inform his research in translational medicine and pharmacotherapeutics.Dr. Li transitioned into academic research with his appointment as a doctoral researcher at the Department of Translational Medicine (Otolaryngology) at Seoul National University College of Medicine. There, he conducted pivotal studies on novel therapeutic delivery systems, inner ear protection mechanisms, and the molecular pathways involved in hearing impairment. His research excellence earned him postdoctoral appointments at the Cancer Research Institute within the same university, where he explored immune-modulatory effects of radiotherapy and the potential of macrophage polarization in mitigating cancer progression. Currently, he serves as a Postdoctoral Research Fellow at the Laboratory of Biopharmaceutics, Industry-Academia Cooperation Foundation, Woosuk University, Korea, where he investigates advanced drug formulations, biopharmaceutical delivery mechanisms, and the translational potential of controlled-release therapeutics.

Profile: Scopus

Featured Publications

Li, J., Wang, H., Zhang, Y., & Chen, L. (2022). Comprehensive intervention and effect of martial arts routines on children with autism. Journal of Environmental and Public Health, 2022.

Zhen Jin | Drug Delivery Systems | Best Researcher Award

Dr. Zhen Jin | Drug Delivery Systems | Best Researcher Award

Assistant Professor at Xinxiang Medical University | China

Dr. Zhen Jin is a distinguished researcher specializing in nanomedicine, controlled drug delivery, and medical micro-nano robots. He completed doctoral and postdoctoral research at the Medical Robotics Research Institute of Chonnam National University, South Korea, before joining Xinxiang Medical College. His innovative work integrates nanodrug design, advanced therapeutic delivery systems, and cancer diagnostics. With more than 30 SCI-indexed publications, including numerous first-author papers, and four granted national invention patents, his contributions continue to influence biomedical science. His pioneering developments in imaging-guided therapy and synergistic nanocomposites highlight his commitment to advancing cancer treatment and medical robotics research globally.

Publication Profile 

Google Scholar

Education 

Dr. Zhen Jin pursued his doctoral degree at the Medical Robotics Research Institute, Chonnam National University, South Korea, where he also completed postdoctoral research. His academic journey provided a strong foundation in interdisciplinary biomedical engineering, robotics, and nanomedicine. During this period, he engaged in multiple national-level projects, honing expertise in medical micro-nano systems and cancer therapy. This rigorous academic training prepared him to advance research in nanodrugs, controlled drug delivery, and medical robotics. Following this, he transitioned to Xinxiang Medical College, where he integrated his educational background into teaching and research to foster innovation in biomedical sciences.

Experience

Dr. Zhen Jin has extensive research and academic experience, beginning with his doctoral and postdoctoral tenure in South Korea, where he contributed to significant national key projects. His expertise spans nanodrug design, micro-nano robotics, and advanced cancer diagnosis and treatment technologies. Currently, he is a faculty member at Xinxiang Medical College, where he leads cutting-edge projects funded by Henan Province. He has successfully published more than 30 SCI papers, authored key innovations, and secured national invention patents. His experience bridges academia and applied research, positioning him as a leader in biomedical nanotechnology and precision therapeutic development.

Awards and Honors

Dr. Zhen Jin has received recognition for his outstanding contributions to biomedical science, particularly in the fields of nanomedicine and cancer therapy. He has successfully participated in national research projects in South Korea and led provincial-level science and technology projects in China. His impactful research has earned him four national invention patents and numerous publications in high-impact SCI journals. His citation index reflects his growing influence in scientific communities, with an h-index of 21. These honors underscore his position as a promising and innovative researcher, making him a strong candidate for the Best Researcher Award.

Research Focus

Dr. Zhen Jin’s research focuses on nanomedicine, controlled drug delivery systems, and micro-nano robotic platforms for cancer therapy. He has developed multifunctional nanocomposites that combine therapeutic delivery with imaging capabilities for precise diagnosis and treatment. His work on DOX-HSP ananotheranostics exemplifies his focus, showcasing biocompatibility, controlled drug release, and imaging-guided multimodal therapy. By integrating photothermal and chemotherapeutic effects, his studies demonstrate enhanced anti-tumor efficacy. His pioneering approach seeks to overcome challenges of premature drug release and tumor-specific targeting, positioning his research at the forefront of personalized medicine, cancer diagnostics, and next-generation biomedical technologies.

Publication Top Notes

Human adipose–derived mesenchymal stem cell–based medical microrobot system for knee cartilage regeneration in vivo

Hybrid-actuating macrophage-based microrobots for active cancer therapy

A magnetically guided self‐rolled microrobot for targeted drug delivery, real‐time X‐Ray imaging, and microrobot retrieval

A thermo-electromagnetically actuated microrobot for the targeted transport of therapeutic agents

A magnetically actuated microscaffold containing mesenchymal stem cells for articular cartilage repair

Multifunctional nanorobot system for active therapeutic delivery and synergistic chemo-photothermal therapy

A hybrid actuated microrobot using an electromagnetic field and flagellated bacteria for tumor‐targeting therapy

A soft-magnet-based drug-delivery module for active locomotive intestinal capsule endoscopy using an electromagnetic actuation system

High-fidelity bioelectronic muscular actuator based on porous carboxylate bacterial cellulose membrane

Dual tumor-targeted multifunctional magnetic hyaluronic acid micelles for enhanced MR imaging and combined photothermal-chemotherapy

Ecofriendly high-performance ionic soft actuators based on graphene-mediated cellulose acetate

Preparation of HIFU-triggered tumor-targeted hyaluronic acid micelles for controlled drug release and enhanced cellular uptake

Feasibility study of dual-targeting paclitaxel-loaded magnetic liposomes using electromagnetic actuation and macrophages

Shape memory alloy–based biopsy device for active locomotive intestinal capsule endoscope

Conclusion

Dr. Zhen Jin pioneering contributions in nanomedicine, micro-nano robots, and controlled drug delivery make him a highly deserving candidate for the Best Researcher Award. His combination of innovative patents, high-impact publications, and cutting-edge theranostic development reflects exceptional promise for shaping the future of biomedical science. With continued emphasis on clinical translation and international engagement, his work is poised to leave a transformative mark on cancer diagnosis and therapy.