Tsveta Stanimirova | Materials Science | Editorial Board Member

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Prof. Tsveta Stanimirova | Materials Science | Editorial Board Member

Professor | Sofia University “St. Kliment Ohridski” | Bulgaria

Professor. Tsvetanka Stanimirova is a leading scholar at Sofia University “St. Kl. Ohridski,” internationally recognized for her contributions to crystallography, experimental mineralogy, and crystal chemistry, with a strong focus on layered double hydroxides, hydrotalcite-like compounds, and thermal transformation processes. She has authored 40+ peer-reviewed publications, accumulating 864 citations, with an h-index of 15 and i10-index of 21. Her highly cited works in Journal of Materials Science, Clay Minerals, and Applied Clay Science have advanced understanding of phase transitions, regeneration mechanisms, and ion-exchange behavior in complex mineral systems. Professor Stanimirova has collaborated extensively with international researchers across Europe and Asia. Her research has significant societal impact through applications in materials science, environmental mineralogy, industrial processes, and cultural heritage studies, supporting sustainable material design and geoscientific innovation worldwide.

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Related High-Impact Publications

Mechanism of hydrotalcite regeneration

Journal of Materials Science Letters, 2001. | 134 citations.

Thermal evolution of Mg–Al–CO₃ hydrotalcites

Clay Minerals, 2004. | 76 citations.

Thermal decomposition of zinc hydroxy-sulfate-hydrate minerals

Journal of Thermal Analysis and Calorimetry, 2016. | 38 citations.

Kai Chen | Materials Science | Research Excellence Award

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Assoc. Prof. Dr. Kai Chen | Materials Science | Research Excellence Award

Professor | Northwest Normal University | China

Assoc. Prof. Dr. Kai Chen is an accomplished researcher at Korea University, Seoul, specializing in surface and interface engineering, electrocatalysis, and advanced materials for energy conversion. His work focuses on high-efficiency water-splitting technologies, including single-atom catalysts, layered double hydroxides, and nitrogen-doped graphene interfaces, addressing critical challenges in sustainable energy. With 37 publications and 1,452 citations, Chen has achieved an h-index of 17, reflecting his significant scholarly impact. He collaborates with a wide network of 105 co-authors, contributing to cross-disciplinary advances in chemical and materials engineering. His research has global relevance, offering innovative strategies for renewable energy technologies, enhancing catalytic efficiency, and promoting environmentally sustainable solutions to energy challenges.

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