Sibel Dikmen Kucuk | Materials Science | Best Researcher Award

Published on by Petroleum Engineering

Dr. Sibel Dikmen Kucuk | Materials Science | Best Researcher Award

Dr. Researcher at Düzce University | Turkey

Dr. Sibel Dikmen Küçük is a Lecturer at Düzce University with extensive academic and industrial experience in cosmetic science and composite material technologies. She holds a Ph.D. in Composite Material Technologies (2024) and an M.Sc. in the same field (2018) from Düzce University, following a B.Sc. in Chemical Engineering from Hacettepe University. Her doctoral research focused on developing natural nanoselulose-based hydrating and stain-removing composite facial masks, reflecting her commitment to integrating sustainable materials into cosmetic formulations. Before her academic appointment in 2017, she spent several years managing project quality for sealing profiles in the automotive sector, gaining solid expertise in polymer processing and industrial standards. Dr. Sibel Dikmen Küçük research centers on the formulation of biopolymer-based and nanocellulose-reinforced composites for cosmetic and engineering applications, with a special emphasis on natural preservatives, antioxidant-rich serums, and functional skin and hair care systems. She has led and contributed to numerous national research projects supported by TÜBİTAK and higher education institutions, including innovations in bio-based rubber, activated carbon production from agricultural waste, and new-generation liposomal cosmetic products. Her publications in international journals such as BioResources, South African Journal of Botany, and the Journal of Rubber Research highlight her contributions to biopolymer modification, UV stabilization, and green material integration. Additionally, she is the inventor and patent holder of a bacterial nanocellulose–based facial serum and actively teaches courses on cosmetic formulation design and quality control. Through continuous professional development and participation in advanced certification programs across Europe, she bridges chemical engineering and cosmetic technology, advancing sustainable innovation in personal care science. Her career reflects a dedication to transforming natural materials into high-performance cosmetic and polymeric systems that align with global sustainability goals.

Profile: ORCID

Featured Publications

Dikmen Küçük, S. (2025). Development and characterization of Ethylene Propylene Diene Monomer (EPDM) rubber reinforced by green material lignin.

Kucuk, S. D., Groso, A., Collet, G., Daniellou, R., & Caliskan, U. K. (2024). Effect of bacterial nanocellulose and plant-containing facial serum on hyperpigmentation in in-vitro conditions.

Dikmen Küçük, S., & Uğraş, H. (2024). Chemical modification of carbon black for coloring.

Kucuk, S. D., Arslan, R., Candan, Z., Tozluoglu, A., Karacay, E., & Ugras, H. İ. (2022, October 5). Kağıt endüstrisinde bor bileşiklerinin kullanımının araştırılması.

Dikmen Küçük, S., Tozluoğlu, A., Güner, Y., Arslan, R., & Sertkaya, S. (2022). Nano-fibrillenmiş selüloz / EPDM kompozitlerin mekanik, reolojik ve yaşlanma özellikleri.

Julia Shamshina | Biopolymeric Materials | Best Researcher Award

Published on by Petroleum Engineering

Assist. Prof. Dr. Julia Shamshina | Biopolymeric Materials | Best Researcher Award

Assistant Professor at Texas Tech University | United States

Assist. Prof. Dr. Julia Shamshina is an accomplished scientist and Assistant Professor at Texas Tech University, serving within the Fiber and Biopolymer Research Institute and the Department of Chemistry & Biochemistry, with an academic career defined by pioneering contributions to sustainable materials science and green chemistry. She earned her B.S. and M.S. degrees in Chemical Engineering from D. Mendeleev University of Chemical Technology of Russia, followed by a Ph.D. in Organic Chemistry from The University of Alabama, where she later completed postdoctoral research in Analytical Chemistry. With professional experience spanning academia, industry, and entrepreneurial ventures, she has held key scientific and leadership positions at institutions and companies including Streamline Automation, 525 Solutions, McGill University, and Mari Signum Mid-Atlantic, where her work received recognition through NASA Tech Brief and ACS Green Chemistry awards. Her research focuses on ionic liquids and biopolymers, particularly chitin and cellulose, with emphasis on designing scalable, biodegradable alternatives to plastics and advancing industrial applications of renewable polymers. She has led projects in green propulsion, pharmaceutical platforms, biopolymer composites, sustainable textile dyes, and advanced biomedical scaffolds, achieving a record of 108 peer-reviewed publications, 23 patents, and over a dozen book chapters, along with extensive editorial service across leading journals. Her impact is reflected in 4,936 citations across 3,651 documents, supported by an h-index of 40, underscoring the global recognition of her research excellence. Her consultancy and collaborations with industry and national laboratories highlight her ability to bridge fundamental science with commercialization, fostering circular bioeconomy solutions. Recognized among the world’s top 2% scientists for multiple consecutive years, she is an active member of international professional societies, including the American Chemical Society and the European Chitin Society, and has contributed to organizing and presiding over symposia worldwide. Her research interests include ionic liquids, biopolymer separations, functional biomaterials, and renewable chemical processes, with a vision of transforming waste streams and natural resources into value-added, sustainable products. With her innovative spirit, global collaborations, and dedication to environmentally responsible material development, Assist. Prof. Dr. Julia Shamshina continues to shape the future of green chemistry and sustainable biomaterials, inspiring both academic progress and industrial innovation.

Profile: Scopus | ORCID

Featured Publications

Panackal Shibu, R., Jafari, M., Sagala, S. L., & Shamshina, J. L. (2025). Chitin nanowhiskers: A review of manufacturing, processing, and the influence of content on composite reinforcement and property enhancement.

Zannat, A., Eason, I., Wylie, B., Rogers, R. D., Berton, P., & Shamshina, J. L. (2025). Comparative analysis of chitin isolation techniques from mushrooms: Toward sustainable production of high-purity biopolymer.

Shi, S., Wang, Y., Ye, Z., Xie, H., Liu, C., Liao, J., Zhao, D., Sun, Q., Shamshina, J. L., & Shen, X. (2025). Dual‐working‐pattern nanosheet‐based hydrogel sensors for constructing human‐machine and physiological‐electric interfaces.

Jayalath, P., Ananthakrishnan, K., Jeong, S., Panackal Shibu, R., Zhang, M., Kumar, D., Yoo, C. G., Shamshina, J. L., & Therasme, O. (2025). Bio-based polyurethane materials: Technical, environmental, and economic insights.

Rajan, K., Berton, P., Rogers, R. D., & Shamshina, J. L. (2024). Is Kraft pulping the future of biorefineries? A perspective on the sustainability of lignocellulosic product development.

Basak, T., & Shamshina, J. L. (2024). Design of chitin cell culture matrices for 3D tissue engineering: The importance of chitin types, solvents, cross-linkers, and fabrication techniques.

Shkuratov, A. S., Panackal Shibu, R., Therasme, O., Berton, P., & Shamshina, J. L. (2024). Sustainable production of chitin nanowhiskers from crustacean biomass using cost-effective ionic liquids: Strategies to avoid byproduct formation.