Research Professor at Seoul National University Bundang Hospital, South Korea

Professional Profile

Summary

Dr. Pham Ngoc Chien is a biomedical researcher and professor specializing in protein biochemistry, cancer biology, and biomaterials. With over 15 years of interdisciplinary research experience in South Korea, he has made significant contributions to drug discovery, neurophysiology, and tissue engineering. Currently, he serves as a Research Professor at the Department of Plastic Surgery, Bundang Seoul National University Hospital (SNUH), focusing on the therapeutic potential of biomaterials in regenerative medicine.

Educational Details

Dr. Chien earned his Ph.D. in Biochemistry from Hanyang University, Korea (2005–2010), where he investigated the enzymatic mechanism of acetohydroxyacid synthase (AHAS) from Bacillus anthracis and Mycobacterium tuberculosis for antibacterial drug development. He also holds a Bachelor's degree in Biotechnology from Hanoi Open University, Vietnam (1999–2003), with a thesis focusing on genetic evaluation of litchi species using RAPID techniques.

Professional Experience

Dr. Chien has held a series of postdoctoral and leadership roles across top Korean research institutions. He began as a postdoctoral researcher at Hanyang University (2010–2014), focusing on the structural analysis of human PTP proteins. He later joined Konkuk University (2015–2018), where he explored memory formation through eye movement studies in mice. At Boramae SNUH (2018–2020), he investigated lung cancer treatment through signaling pathways in cancer cells. From 2020 to 2022, he worked on biomaterial evaluation in animal models at Bundang SNUH. He then served as Principal Investigator at H&Bio Company (2022–2025), leading translational research in regenerative materials. Since February 2025, he has continued his academic work as Research Professor at Bundang SNUH.

Research Interests

Dr. Chien’s interdisciplinary expertise spans enzymology, protein structure-function analysis, neurophysiology, cancer cell biology, and biomaterials. His recent focus involves evaluating novel biomaterials for wound healing and tissue regeneration using animal models. His technical skillset includes molecular cloning, protein expression/purification, X-ray crystallography, ELISA, Western blotting, immunostaining, and advanced microscopy techniques (SEM, TEM, Confocal). He also has experience in behavioral and physiological assays such as VOR/OKR in rodents.

Author Metrics

Dr. Pham Ngoc Chien has contributed to numerous peer-reviewed publications across biochemistry, physiology, and biomedical engineering. His work has been cited in international journals, with growing recognition in protein-targeted drug development and tissue repair research. Metrics such as h-index, citation count, and journal impact factors can be provided upon request or via his ORCID/Google Scholar profile.

Awards and Honors

Dr. Chien’s career is marked by steady academic progress, successful international collaborations, and recognition for excellence in applied research. Notably, he has led funded research as a Principal Investigator at H&Bio Company and has consistently contributed to high-impact research teams across leading Korean institutions. He continues to mentor junior researchers while advancing translational research in biomedical innovation.

Publication Top Notes

A Comprehensive Review of Natural Compounds for Wound Healing: Targeting Bioactivity Perspective

Authors: XT Trinh, NV Long, LT Van Anh, PT Nga, NN Giang, PN Chien, SY Nam, ...
Journal: International Journal of Molecular Sciences
Volume/Issue: 23(17), Article No. 9573
Year: 2022
Citations: 111
Summary: A critical review examining the pharmacological potential of natural compounds in enhancing wound healing, focusing on anti-inflammatory, antimicrobial, and regenerative mechanisms.

Anaplastic Large Cell Lymphoma: Molecular Pathogenesis and Treatment

Authors: XR Zhang, PN Chien, SY Nam, CY Heo
Journal: Cancers
Volume/Issue: 14(7), Article No. 1650
Year: 2022
Citations: 62
Summary: This paper outlines the molecular underpinnings of anaplastic large cell lymphoma and explores therapeutic approaches, including targeted immunotherapy.

Benign Paroxysmal Positional Vertigo: What We Do and Do Not Know

Authors: D Nuti, DS Zee, M Mandalà
Journal: Seminars in Neurology
Volume/Issue: 40(1), pp. 49–58
Year: 2020
Citations: 60

The Family-Wide Structure and Function of Human Dual-Specificity Protein Phosphatases

Authors: DG Jeong, CH Wei, B Ku, TJ Jeon, PN Chien, JK Kim, SY Park, ...
Journal: Biological Crystallography
Volume/Issue: 70(2), pp. 421–435
Year: 2014
Citations: 49
Summary: Investigates the crystal structures and enzymatic functions of human DUSP family phosphatases, contributing to insights into cell signaling and therapeutic targeting.

The Light Cupula: An Emerging New Concept for Positional Vertigo

Authors: MB Kim, SM Hong, H Choi, S Choi, NC Pham, JE Shin, CH Kim
Journal: Journal of Audiology & Otology
Volume/Issue: 22(1), pp. 1–5
Year: 2017
Citations: 44

Conclusion

Dr. Pham Ngoc Chien stands out as an exceptionally well-rounded and impactful researcher in the biomaterials domain. His rich interdisciplinary background, translational focus, and robust publication record make him highly deserving of the Best Researcher Award. With minor enhancements—such as further emphasizing leadership in authorship and international exposure—his candidacy would be nearly impeccable.

Dr. Mohammad Zahirul Islam Mollah | Radiation | Best Academic Researcher Award

Principal Scientific Officer at Bangladesh Atomic Energy Commission,

Bangladesh

Professional Profile

Orcid

Scopus

Google Scholar

Summary

Dr. Mohammad Zahirul Islam Mollah is a distinguished Principal Scientific Officer at the Bangladesh Atomic Energy Commission, with over two decades of experience in research and development across radiation processing and biopolymeric materials. Since 2003, he has actively contributed to national and international projects under IAEA, FNCA, and RAS/TC/CRP initiatives. His scientific work spans the development of biodegradable and radiation-processed biomaterials, with a strong focus on environmental and healthcare applications.

Educational Details

Dr. Mollah holds a Ph.D. in Bio-Polymers and has completed a specialized diploma in the same field. His academic foundation combines deep expertise in polymer science with applied knowledge in radiation technology, enabling him to bridge fundamental science with practical innovations in material development.

Professional Experience

As a senior researcher at one of South East Asia’s leading scientific institutions, Dr. Mollah has led and participated in numerous research initiatives since 2003. His core responsibilities include designing and executing experimental studies involving radiation processing of food, spices, and medical products using Co-60 gamma irradiation. He is also engaged in collaborative research with institutions in the UK, Malaysia, and Saudi Arabia, and maintains strong ties with local universities for academic exchange and joint projects.

Research Interests

Dr. Mollah’s research is centered on the extraction, preparation, modification, and application of biodegradable natural polymers such as alginate and chitosan. His work includes developing polymeric films, hydrogels for wound dressing, super absorbents for agriculture, and natural fiber-reinforced composites. He employs advanced analytical techniques such as FTIR, GPC-MALLS, TGA, DSC, DMA, and UTM to study physical, chemical, and mechanical properties of biomaterials. Additionally, his interest in radiation-induced modifications extends to plant growth promotion and natural fiber enhancement.

Author Metrics

Dr. Mohammad Zahirul Islam Mollah has an extensive publication record, with around 50 research articles published in peer-reviewed journals indexed in SCI and Scopus. His scholarly work reflects a consistent focus on radiation processing, biodegradable polymers, and material characterization. He actively maintains academic profiles across multiple research platforms. His ResearchGate profile showcases his citations and collaborations, while his ORCID (0000-0002-7134-7509) ensures a verified record of his scientific contributions. His Scopus Author ID (23486205000) and Web of Science Researcher ID (AAA-5501-2021) further establish his academic credibility, tracking citations, h-index, and authorship metrics across international journals.

Awards and Honors

While specific honors or awards are not detailed, Dr. Mollah's appointment as Principal Scientific Officer and his sustained contributions to international R&D initiatives underscore his standing in the scientific community. His leadership in radiation technology and biodegradable materials research has earned him recognition through institutional trust and multi-country collaborations.

Publication Top Notes

1. Thermoset-Polymer Matrix Composite Materials of Jute and Glass Fibre Reinforcements: Radiation Effects Determination

Authors: SH Mahmud, SC Das, MZI Mollah, MM Ul-Hoque, KS Al-Mugren, K Akther
Journal: Journal of Materials Research and Technology
Volume: 26 | Pages: 6623–6635 | Publisher: Elsevier
DOI: [Available via Journal Site]
Year of Publication: 2023
Citations (Google Scholar): 29
Abstract Summary:
This paper investigates the effect of gamma radiation on thermoset polymer composites reinforced with natural (jute) and synthetic (glass) fibres. By irradiating composite samples with varying gamma doses, the authors evaluated changes in thermal stability, mechanical properties, and interfacial bonding. Key findings demonstrated that radiation improved the composite matrix–fibre interface, enhanced tensile and flexural strength, and altered the degradation behavior, thus paving the way for durable hybrid bio-composites for structural and industrial applications.

2. Natural Fiber Reinforced Polymer-Based Composites: Importance of Jute Fiber

Authors: S Sonali, M Farzana, MM Haque, A Saha, RA Khan, MZI Mollah
Journal: GSC Advanced Research and Reviews
Volume: 15 | Issue: 1 | Pages: 021–029
Publisher: GSC Online Press
Year of Publication: 2023
Citations: 13
Abstract Summary:
This review article outlines the critical significance of jute fiber in the development of polymer-based bio-composites. It highlights jute’s excellent mechanical characteristics, biodegradability, renewability, and economic advantages. The authors discuss processing techniques, chemical treatments to improve fiber–matrix adhesion, and potential uses in packaging, construction, and automotive industries. The review provides an in-depth overview of jute fiber’s advantages over synthetic reinforcements in sustainable material development.

3. FTIR and Rheology Study of Alginate Samples: Effect of Radiation

Authors: MZI Mollah, MRI Faruque, DA Bradley, MU Khandaker, S Al Assaf
Journal: Radiation Physics and Chemistry
Publisher: Elsevier
Year of Publication: 2023
Citations: 36
Abstract Summary:
This study focuses on the influence of gamma radiation on the structural and rheological properties of alginate biopolymers. Using Fourier-transform infrared spectroscopy (FTIR) and rheological analyses, the authors determined changes in molecular bonding, gelling behavior, and viscosity profiles. Results indicated that radiation induces partial degradation, affecting the mechanical strength and cross-linking density of alginate. The findings offer valuable insights for biomedical and food industry applications involving irradiated polysaccharides.

4. Physico-Mechanical Properties Enhancement of Pineapple Leaf Fiber (PALF) Reinforced Epoxy Resin-Based Composites Using Guar Gum (Polysaccharide) Filler: Effects of Gamma Radiation

Authors: MB Hoque, MA Hannan, MZI Mollah, MRI Faruque, RA Khan
Journal: Radiation Effects and Defects in Solids
Publisher: Taylor & Francis
Year of Publication: 2022
Citations: 11
Abstract Summary:
This paper explores the combined use of pineapple leaf fiber (PALF) and guar gum as reinforcement and filler materials in epoxy resin composites. Gamma radiation was applied to modify and enhance the interfacial bonding and overall material strength. The study shows significant improvements in tensile strength, thermal resistance, and moisture barrier properties. The integration of natural fibers and radiation processing demonstrates potential for bio-composite applications in automotive, packaging, and construction sectors.

5. Gamma Irradiation to Sterilize Active Ingredients, Consumer Foodstuffs and Beverages in Bangladesh

Authors: HM Zahid, MZI Mollah, RA Khan
Journal: Scientific Review
Publisher: Scientific Bangladesh
Year of Publication: 2022
Citations: 3
Abstract Summary:
This study evaluates the effectiveness of gamma irradiation for sterilizing various consumer products including pharmaceuticals, food items, and beverages in Bangladesh. The paper reviews current practices, Co-60 irradiator facilities, microbial inactivation processes, and regulatory standards. It highlights the importance of radiation as a non-thermal sterilization technique that ensures product safety without compromising quality, especially relevant in tropical regions with high microbial loads.

Conclusion

Dr. Mohammad Zahirul Islam Mollah is a highly deserving candidate for the Best Academic Researcher Award. His combination of deep technical knowledge, applied innovation in radiation and polymer science, international collaboration, and consistent publication output demonstrate academic excellence and societal relevance. With minor enhancements in visibility and translational outcomes, his profile would be near ideal.