Ju-Seop Kang | Skin barrier function | Best Researcher Award

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Dr. Ju-Seop Kang | Skin Barrier Function | Best Researcher Award

Professor | Hanyang University| South Korea

Dr. Ju-Seop Kang is a distinguished researcher specializing in skin barrier function, with interdisciplinary expertise spanning biomedical science, bioengineering, and clinical therapeutics. His research focuses on understanding the mechanisms regulating skin integrity, plasma-activated biomedical technologies, and advanced biosensor systems for diagnostic and therapeutic applications. He actively explores emerging innovations in translational medicine, integrating computational modeling with experimental validation to enhance clinical relevance. Dr. Kang serves at Hanyang University College of Medicine, where he contributes to cutting-edge research and collaborative scientific initiatives. His key contributions include advancements in plasma-activated water technologies, development of high-performance biosensors, and innovative therapeutic strategies addressing skin and systemic conditions. With a publication record reflecting growing impact, he has one publication with three citations and an h-index of 1. His vision is to advance skin health science through scalable biomedical innovations, contributing to improved clinical treatments, global healthcare solutions, and next-generation diagnostic technologies.

Citation Metrics (Scopus)

3000

500

100

0

Citations
2,631

Documents
94

h-index
24

🟦 Citations
🟥 Documents
🟩 h-index

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Reinhard Heinz Hans Neubert | Dermatopharmacy | Distinguished Scientist Award

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Prof. Reinhard Heinz Hans Neubert | Dermatopharmacy | Distinguished Scientist Award

Vice-Chairman  | Matin Luther University | Germany

Prof. Dr.Reinhard Heinz Hans Neubert is a leading researcher specializing in dermal drug delivery and dermatopharmaceutical sciences, currently affiliated with the Institute of Applied Dermatopharmacy (IADP), Martin Luther University Halle-Wittenberg. His research focuses on dermal and transdermal drug delivery systems, nanostructure and organization of stratum corneum lipids, ceramide chemistry, colloidal carrier systems, phytopharmaceuticals, and the application of affinity capillary electrophoresis to optimize topical formulations. With extensive academic and translational experience, he has led large-scale collaborative research initiatives and advised numerous postgraduate researchers while also contributing to industry-oriented innovation through consultancy and technology transfer. His key contributions include pioneering insights into skin barrier lipid organization, advancement of analytical methods for skin penetration studies, and the development of innovative dermal delivery platforms supported by multiple patents. Impact Vision: Prof. Neubert’s work strengthens the scientific foundation of skin barrier research and accelerates the translation of dermatological innovations into effective, safe, and globally relevant therapeutic and cosmetic solutions.

Citation Metrics (Scopus)

14000

1000

600

500

0

Citations
13,603

Documents
474

h-index
56

🟦 Citations
🟥 Documents
🟩 h-index


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Featured Publications


Potentials of new nanocarriers for dermal and transdermal drug delivery

–European Journal of Pharmaceutics and Biopharmaceutics, , 2011

Ceramides and barrier function of the skin

– Skin Pharmacology and Physiology, 2015

Affinity capillary electrophoresis as a tool for optimizing topical drug formulations

– Journal of Pharmaceutical and Biomedical Analysis,2019

Meheli Ghosh | Dermatology | Research Excellence Award

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Meheli Ghosh | Dermatology | Research Excellence Award

PHD | Mercer University | United States

Meheli Ghosh is a pharmaceutical sciences researcher specializing in advanced drug delivery systems and dermatological/transdermal formulation development. Her research focuses on topical and transdermal drug delivery, microneedle-based systems, nanoparticulate and microparticulate carriers, foam and gel formulations, and quality-by-design approaches for skin-targeted therapies, with emerging interests in regulatory-relevant bioequivalence and late-stage product development. She has gained significant research experience through collaborative projects with the U.S. Food and Drug Administration, NIH-funded programs, and industry-aligned research at Merck Group, contributing to formulation design, process optimization, IVRT/IVPT studies, and regulatory documentation. Her key contributions include the development of novel drug-loaded microneedles using vacuum compression molding, innovative nanoparticle- and emulsome-based systems for chemical injury mitigation, and advanced topical platforms addressing unmet dermatological needs. Impact Vision: Her work bridges academic research and regulatory science, accelerating the translation of safe, effective, and scalable dermatological therapies that advance global skin health and pharmaceutical innovation.

 

Citation Metrics (Google Scholar)

100

80

60

20

0

Citations
94

i10-index
4

h-index
4

🟦 Citations
🟥 i10-index
🟩 h-index


View Google Scholar

Featured Publications