Assoc. Prof. Dr Zeynep Kalaycıoğlu, Istanbul Technical University, Turkey
Assoc. Prof. Dr. Zeynep Kalaycıoğlu is a distinguished researcher and lecturer at Istanbul Technical University 🏛️, specializing in analytical chemistry 🧪. Her expertise spans metal/metal oxide nanoparticle synthesis, drug-protein interactions, and biopolymeric composite films for food packaging and wound dressing 🌱. With over 30 high-impact publications 📄, two book chapters 📚, and multiple research projects, she has significantly contributed to multidisciplinary collaborations in materials science, biochemistry, and pharmaceutical sciences 🏆. Currently, she leads a funded project on green synthesis of bioactive nanoparticles from olive mill wastewater 🌿, promoting sustainability in scientific innovation. 🚀
Publication Profile
Scopus
Professional Background
Assoc. Prof. Dr. Zeynep Kalaycıoğlu is an academic researcher and lecturer at Istanbul Technical University, specializing in analytical chemistry 🔬. Her Ph.D. focused on isolating and characterizing bioactive compounds from natural products 🌿, developing advanced analytical techniques, and exploring biopolymer applications. With extensive experience in teaching analytical chemistry labs 🏫, she has guided students through complex experimental techniques. Her research interests span metal/metal oxide nanoparticle synthesis ⚛️, drug-protein interactions 💊, and biopolymeric composite films. Dr. Kalaycıoğlu collaborates with multidisciplinary teams across materials science, biochemistry, and pharmaceutical sciences, contributing to cutting-edge advancements in her field 🔍.
Professional Memberships
Assoc. Prof. Dr. Zeynep Kalaycıoğlu is a dedicated member of the Turkish Chemical Society ⚗️ and an expert in analytical chemistry 🔬. Her research focuses on metal/metal oxide nanoparticle synthesis ⚛️, drug-protein interactions 💊, and biopolymeric composite films for food packaging 🥫 and wound dressing 🩹. She also specializes in capillary electrophoresis, statistical analysis 📊, food analysis 🍎, and water remediation 💧. Additionally, her work involves molecular docking 🧬 to explore chemical interactions at the molecular level. Through her multidisciplinary research, Dr. Kalaycıoğlu continues to contribute innovative solutions to chemistry, materials science, and pharmaceutical applications.
Academic Research
Assoc. Prof. Dr. Zeynep Kalaycıoğlu actively shares her research through various academic platforms 🌐. Her profiles on Google Scholar 📚, ResearchGate 🔬, and LinkedIn 💼 showcase her contributions to analytical chemistry and multidisciplinary studies. These platforms highlight her publications, collaborations, and scientific impact. Additionally, she maintains a repository of relevant ID and certification documents 🏆, ensuring transparency and credibility in her academic journey. By engaging with global researchers and institutions, Dr. Kalaycıoğlu continues to advance knowledge in nanoparticle synthesis, drug-protein interactions, and biopolymeric applications, making significant contributions to science and technology.
Awards
Assoc. Prof. Dr. Zeynep Kalaycıoğlu is honored to be considered for prestigious scientific awards 🏆. With her extensive contributions to analytical chemistry, nanoparticle synthesis ⚛️, and biopolymeric applications 🌿, she aligns with categories such as the Distinguished Scientist Award, Outstanding Scientist Award, and Excellence in Research 🔬. As a dedicated educator and innovator, she also qualifies for the Best Faculty Award 🎓 and Best Innovation Award 💡. Passionate about advancing science and mentoring future researchers, she seeks recognition that reflects her commitment to groundbreaking discoveries and impactful contributions to multidisciplinary research.
Research Focus
Assoc. Prof. Dr. Zeynep Kalaycıoğlu’s research primarily focuses on biophysical chemistry 🧪, particularly the interaction of biomolecules 🧬 with pharmaceutical and polymeric compounds. Her work spans protein-ligand binding 🔬, spectroscopic characterization 📊, and molecular docking analysis 🖥️ to understand biochemical interactions at a molecular level. She also explores nanomaterials ⚛️ for biomedical applications, including wound healing hydrogels 🩹 and drug delivery systems 💊. Her expertise in capillary electrophoresis ⚡ further enhances the understanding of biomolecular interactions. Through her interdisciplinary approach, she contributes to advancements in biomedical engineering 🏥, materials science 🏗️, and pharmaceutical research 🌱.
Publication Top Notes
Binding interaction between sodium carboxymethyl cellulose and serum albumin: Insights from multi-spectroscopy methods, rheological characterization and molecular docking analysis
Foam-based antibacterial hydrogel composed of carboxymethyl cellulose/polyvinyl alcohol/cerium oxide nanoparticles for potential wound dressing
Capillary Electrophoresis-Frontal Analysis (CE-FA) and Molecular Docking Studies on the Albumin-Binding Properties of Dopamine and Serotonin