Yoon Jin Lee | Natural and Plant Based Skincare Ingredients | Research Excellence Award

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Prof. Yoon Jin Lee | Natural and Plant Based Skincare Ingredients | Research Excellence Award

Professor | Soonchunhyang | South Korea

Prof. Yoon-jin Lee, a distinguished scholar at Soonchunhyang University, Asan, South Korea, is a leading researcher whose work spans cancer biology, metabolomics, natural product chemistry, and regenerative medicine, as reflected in her 1,255 citations, 72 published documents, and an h-index of 22. Her scholarship demonstrates a sustained commitment to advancing molecular insights into cancer progression, exploring bioactive natural compounds, and innovating therapeutic strategies using both in vitro and in vivo models. Prof. Lee has contributed significantly to the understanding of apoptosis, necroptosis, metabolic reprogramming, and microenvironment-driven cancer behavior, with several recent works investigating polyphenol-mediated anticancer mechanisms, extracellular vesicle–induced metabolic shifts, and advanced analytical approaches such as qNMR and metabolomics for evaluating medicinal plant derivatives. Beyond oncology, her research extends to tissue engineering and musculoskeletal regeneration, including cutting-edge studies on bioprinted collagen constructs and microcurrent-induced muscle repair. Her multidisciplinary approach—integrating analytical chemistry, cell biology, and biomedical engineering—has positioned her as a vital contributor to translational research that bridges laboratory discoveries with potential clinical applications. Across 131 co-authors and diverse international collaborations, her studies reflect a strong global research footprint and a commitment to scientific rigor, innovation, and societal impact. With a growing publication record that continues to influence emerging methodologies and therapeutic concepts, Prof. Lee remains a key figure advancing the future of biomedical research and interdisciplinary scientific development.

 Profiles: Scopus |  ORCID 

Featured Publications

1. Lee, Y., Lee, S.-H., Choi, D., Nam, H.-S., Kim, K. D., Choi, M. H., Cho, M.-K., & Lee, Y.-J. (2025). Resveratrol targets glycolytic enzymes HK II and PKM2 to promote concurrent apoptotic and necrotic cell death in malignant melanoma. Current Issues in Molecular Biology, 47(12), 1006.

2. Lee, Y.-J., Kim, K. D., Choi, M. H., Park, S. Q., Choi, Y. S., Bae, Y., Nam, H. S., Lee, S. H., & Cho, M. K. (2025). Apoptosis, cell growth, and glycogen synthase kinase 3β phosphorylation in caffeic acid-treated human malignant melanoma cells. Biomedicines, 13(10), 2389.

3. Lee, Y.-J., Kwon, E. S., Moon, Y. S., & Kwon, D. R. (2025). In vitro and in vivo comparative analysis of muscle regenerative processes induced by different microcurrent waveforms in skeletal muscle atrophy. International Journal of Molecular Sciences, 26(19), 9333.

4. Lee, Y., Lee, C., Lee, S.-H., & Lee, Y.-J. (2025). Effect of butein, a plant polyphenol, on apoptosis and necroptosis of prostate cancer cells in 2D and 3D cultures. Life, 15(6), 836.

5. Lee, Y.-J., Seo, C. W., Chae, S., Lee, C. Y., Kim, S. S., Shin, Y.-H., Park, H.-M., Gho, Y. S., Ryu, S., Lee, S.-H., et al. (2025). Metabolic reprogramming into a glycolysis phenotype induced by extracellular vesicles derived from prostate cancer cells. Molecular & Cellular Proteomics, 100944.

Jianyong Ouyang | Green Chemistry in Skincare | Excellence in Research Award

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Prof. Jianyong Ouyang | Green Chemistry in Skincare | Excellence in Research Award

National University of Singapore | Singapore

Prof. Jianyong Ouyang, a leading Professor at the National University of Singapore, is an internationally recognized materials scientist whose work has significantly advanced the fields of conducting polymers, thermoelectric materials, organic electronics, and multifunctional nanocomposites. He earned his academic foundation through rigorous training in materials science and engineering, followed by advanced doctoral research that shaped his expertise in functional polymer systems and charge-transport mechanisms. Over his distinguished career, Dr. Ouyang has authored more than 279 peer-reviewed publications, which have collectively garnered over 28,283 citations and an impressive h-index of 88—a reflection of his deep and sustained influence on contemporary materials research. His recent publications span high-impact journals such as Advanced Functional Materials, Advanced Energy Materials, Nano-Micro Letters, ACS Applied Materials & Interfaces, and Small, with notable contributions including breakthroughs in ultrahigh thermoelectric polymers, mixed ion–electron thermoelectric generators, stretchable conductive polymer blends, and high-performance ionogels for heat-to-electricity conversion. Dr. Ouyang has collaborated extensively, with more than 500 co-authors worldwide, underscoring his role as a catalyst for global scientific exchange. His pioneering studies on PEDOT:PSS, MXenes, perovskite interfaces, and polymer charge transport have opened new pathways for sustainable energy harvesting, flexible electronics, and electromagnetic interference shielding technologies. He has received multiple honors for scientific excellence and is frequently invited to serve as an editorial board member and reviewer for leading journals in materials science, applied chemistry, and nanotechnology. Beyond publications, his research has delivered substantial societal impact by advancing scalable, energy-efficient materials essential for next-generation wearable devices, renewable energy systems, and environmentally friendly electronic components. Dr. Ouyang continues to shape the frontier of materials innovation through his leadership, prolific scientific output, and commitment to advancing interdisciplinary research.

Profiles: Scopus | Google Scholar | ORCID 

Featured Publications

1. Yang, J., Wang, Z., Yang, Z., Liu, M., Lee, D. K. H., Bian, K., Ouyang, J., & Tee, B. C. K. (2025). Non-hazardous and fully recyclable ionic thermoelectrics for sustainable human–machine interfaces. Nature Communications.

2. Chen, Z., Wen, Y., Hu, Y., Wu, C., Xu, C., Zhang, T., Ni, Q., Shin, S., Sun, K., & Ouyang, J. (2025). An n-type polymer with high-performance thermoelectric properties by solvent-mediated oxidation. Advanced Energy Materials.

3. Chen, Z., Wen, Y., Xu, Y., Li, D., Le, Q., Shin, S., & Ouyang, J. (2025). A solid polymer film with giant thermoelectric properties by polar level splitting with an organic donor. Advanced Functional Materials.

4. Zhao, L., Zhang, Y., Zhou, W., Feng, X., & Ouyang, J. (2025). High-performance SiO₂ nanoparticle ionogels for continuous heat-to-electricity conversion. Small.

5. Qian, Q., Cheng, H., Xie, H., Wu, Y., Fang, Y., Le, Q., Yue, S., & Ouyang, J. (2025). A mixed ion/electron thermoelectric generator with ultrahigh steady thermopower by exploring both the hole tunneling and ion accumulations. Advanced Energy Materials.