Harran University, Turkey
Dr. Sultan Göktaş (b. 16.11.1982, Şanlıurfa ) is a Turkish chemist specializing in inorganic and analytical chemistry . Fluent in English (UDS: 63.750) , she is a dedicated researcher and educator with significant contributions to photocatalysis, nanomaterials, and environmental chemistry . Married and a proud mother of two , Dr. Göktaş combines scientific excellence with personal resilience and public service . Her work spans academic publications, national and international conferences, and government-supported research projects . She is committed to advancing green chemistry, sustainable technologies, and chemical education through research, mentoring, and public engagement .
Profile
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🎓 Education
Dr. Göktaş earned her Ph.D. in Inorganic Chemistry from Harran University (2010–2019) , with a dissertation on organophosphazenes advised by Assoc. Prof. Dr. Fatih Aslan . She completed her M.Sc. in Analytical Chemistry (2005–2008), focusing on dopamine/norepinephrine electroanalysis under Prof. Dr. Mehmet Aslanoğlu . Her foundational training in science education was at Pamukkale University (1999–2003) . Her academic path reflects a strong interdisciplinary approach, blending chemical synthesis, sensor technology, and science education . She has actively developed her skills through certified training in computing , STEM, English, and arts, enhancing her teaching and communication abilities .
🧪 Experience
Dr. Göktaş has rich experience in academia and applied science, contributing to research on nanomaterials, photocatalysts, and environmental remediation . She has served as a researcher in TUBITAK and BAP projects and coordinated national STEM-based programs . With numerous peer-reviewed publications and conference presentations, she is a leading voice in photodegradation, ZnO/CuO nanostructures, and green technologies . She has also reviewed science textbooks for Turkey’s Ministry of National Education and provided education during the COVID-19 era . A skilled communicator and team collaborator, she brings laboratory science and classroom insight into impactful real-world applications .
🏆 Awards and Honors
Dr. Göktaş has earned multiple honors for her service and excellence, including a Service and Achievement Certificate from Şanlıurfa Governorship , an Excellence Award and a Success Award from Haliliye District Governorship , and an Achievement Certificate from Turkey’s Ministry of National Education . Her contributions to scientific education, public engagement, and national curriculum development have been recognized across institutions . These awards highlight her commitment to both academic excellence and community development, as she bridges scientific research with educational reform and youth engagement in STEM fields .
🔬 Research Focus
Dr. Göktaş’s research centers on nanostructured materials, photocatalytic degradation, and organophosphazene synthesis for environmental applications . Her focus lies in developing catalyst-free and sustainable photodegradation systems for dyes like methylene blue under various conditions . She explores the synthesis and characterization of ZnO, CuO, and CZTS thin films, and their structural, optical, and catalytic properties . With expertise in voltammetric electrochemical sensing and nanocomposite innovation, she contributes to green chemistry and pollutant removal technologies . Her interdisciplinary research connects analytical chemistry, inorganic synthesis, and nanotechnology to address global sustainability challenges .
🏅 Conclusion
Dr. Sultan Göktaş is a highly deserving nominee for the Best Researcher Award, especially in the categories of emerging researcher, environmental chemistry, and nanomaterial innovation. Her scholarly productivity, societal relevance, and dedication to STEM education make her stand out. With minor strategic enhancements in international engagement and translational research, she could not only secure this award but also position herself for global scientific leadership in the years ahead.
Publication
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Title: Growth technique–induced highly C-axis-oriented ZnO: Mn, ZnO: Fe and ZnO: Co thin films: a comparison of nanostructure, surface morphology, optical band gap, and room temperature ferromagnetism
Authors: S. Göktaş, A. Tumbul, A. Göktaş
Year: 2023
Citations: 59
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Title: Voltammetric behaviour of levodopa and its quantification in pharmaceuticals using a β-cyclodextrine doped poly (2,5-diaminobenzenesulfonic acid) modified electrode
Authors: M. Aslanoğlu, A. Kutluay, S. Göktaş, S. Karabulut
Year: 2009
Citations: 32
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Title: Voltammetric Determination of Adrenaline Using a Poly (1‐Methylpyrrole) Modified Glassy Carbon Electrode
Authors: M. Aslanoğlu, A. Kutluay, S. Karabulut, S. Abbasoğlu
Year: 2008
Citations: 27
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Title: Electrochemical determination of dopamine in the presence of ascorbic acid using a poly (3-acetylthiophene) modified glassy carbon electrode
Authors: M. Aslanoğlu, S. Abbasoğlu, S. Karabulut, A. Kutluay
Year: 2007
Citations: 26
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Title: A poly (3-acetylthiophene) modified glassy carbon electrode for selective voltammetric measurement of uric acid in urine sample
Authors: M. Aslanoğlu, A. Kutluay, S. Abbasoğlu, S. Karabulut
Year: 2008
Citations: 14
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Title: Synergic effects of pH, reaction temperature, and various light sources on the photodegradation of methylene blue without photocatalyst: a relatively high degradation efficiency
Authors: S. Göktaş
Year: 2024
Citations: 10
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Title: Cyclic voltammetric determination of noradrenaline in pharmaceuticals using poly (3-acetylthiophene)-modified glassy carbon electrode
Authors: M. Aslanoğlu, S. Göktaş, S. Karabulut, A. Kutluay
Year: 2009
Citations: 9