Prof Dr. Seda Nur Topkaya | Biosensors | Best Researcher Award
Professor at Izmir Katip Ceelbi University, Turkey
Dr. Seda Nur Topkaya Cetin is a distinguished Professor and Chair of the Basic Pharmaceutical Sciences Department at Izmir Katip Celebi University, where she also leads the Department of Analytical Chemistry. Her extensive academic and research career is centered around analytical chemistry, with a focus on electrochemistry, biosensor development, and nanomaterials. With a Ph.D. from Ege University and significant research experience in renowned institutions such as Harvard Medical School and the Max Planck Institute, Dr. Topkaya Cetin has made substantial contributions to the fields of molecular diagnostics and biosensing technologies.
Author Metrics
Dr. Topkaya Cetin has published extensively in peer-reviewed journals and book chapters, contributing significantly to the fields of analytical chemistry and biosensors. Her research articles have been widely cited, reflecting her influence and impact on her areas of expertise. She serves as a reviewer and editorial board member for several prominent scientific journals, further underscoring her role as a leading figure in her field.Seda Nur Topkaya, a researcher affiliated with Ä°zmir KĆ¢tip Ćelebi Ćniversitesi in Turkey. Her Scopus Author Identifier and ORCID profile suggest she has a notable academic presence, with 1,613 citations across 1,514 documents and an h-index of 18.
Education
Dr. Topkaya Cetin obtained her Ph.D. in Analytical Chemistry with a focus on Electrochemistry from Ege University in 2013. She completed her M.Sc. in the same field at Ege University in 2009, following her undergraduate studies in Pharmacy at the same institution. Her education was complemented by international research experiences, including stints at Harvard Medical School, Joseph Fourier University, and the Max Planck Institute, where she expanded her expertise in tissue engineering, nanomaterials, and biosensing technologies.
Research Focus
Dr. Topkaya Cetinās research primarily focuses on the development and optimization of electrochemical biosensors for medical diagnostics. Her work includes the label-free detection of gene hypermethylation and single-point mutations related to cancer and myeloproliferative disorders. Additionally, she investigates miRNA sensing and miRNA-protein interactions using both labeled and label-free strategies. Her research also explores nanomaterials and their applications in biosensing, contributing to advancements in molecular diagnostics and personalized medicine.
Professional Journey
Dr. Topkaya Cetin’s professional journey includes significant roles at both Ege University and Izmir Katip Celebi University. She began as a Research and Teaching Assistant at Ege University, advancing through the ranks to become an Assistant Professor and later an Associate Professor. Since 2017, she has held leadership positions at Izmir Katip Celebi University, including Head of the Analytical Chemistry Department and the Basic Pharmaceutical Sciences Department. Her career reflects a dedication to both teaching and research, with substantial contributions to the advancement of pharmaceutical sciences.
Honors & Awards
Dr. Topkaya Cetin has received numerous accolades for her research and contributions to science. Notable awards include the Best Poster Competition Third Prize at FOTONÄ°K 2022, the Encouragement Award from the Turkish Pharmacistsā Association in 2017, and the prestigious 65th Lindau Nobel Laureate Meeting participation in 2015. She has also been recognized with several scholarships and fellowships, including the DAAD Scholarship for Academics and the Turkish Council of Higher Education International Research Fellowship.
Publications Noted & Contributions
Dr. Topkaya Cetin has published extensively, with her research appearing in both national peer-reviewed journals and international book chapters. Key publications include works on biosensor applications in beverages, cancer detection, and electrochemical biosensors for nucleic acid analysis. Her contributions are noted for advancing the understanding and application of biosensing technologies, particularly in the context of disease diagnosis and environmental monitoring.
“Electrochemical Profiling of Natural Furanocoumarins: DNA Interaction Dynamics of Oxypeucedanin and Prantschimgin”
- Journal: ADMET and DMPK
- Year: 2024
- DOI: 10.5599/ADMET.2199
- Details: This study explores the electrochemical interactions of furanocoumarins with DNA, focusing on specific compounds such as oxypeucedanin and prantschimgin.
“Electrochemical Properties of Fused Pyrimidine-Triazole Heterocyclic Molecules as Novel Drug Candidates”
- Journal: Turkish Journal of Pharmaceutical Sciences
- Year: 2024
- DOI: 10.4274/TJPS.GALENOS.2023.46095
- Details: This paper investigates the electrochemical properties of new heterocyclic compounds that could serve as drug candidates.
“Label-Free and Label-Based Electrochemical Detection of Disease Biomarker Proteins”
- Journal: ADMET and DMPK
- Year: 2024
- DOI: 10.5599/ADMET.2162
- Details: This research focuses on developing electrochemical methods for detecting disease biomarkers both with and without labels.
“Biosensor Integrated Brain-on-a-Chip Platforms: Progress and Prospects in Clinical Translation”
- Journal: Biosensors and Bioelectronics
- Year: 2023
- DOI: 10.1016/J.BIOS.2023.115100
- Details: This review highlights advancements in integrating biosensors with brain-on-a-chip technology, discussing potential clinical applications.
“Electrochemical Investigation of Hydroxyapatite-Lanthanum Strontium Cobalt Ferrite Composites (HA-LSCF) for SARS-CoV-2 Aptasensors”
- Journal: RSC Advances
- Year: 2023
- Details: The paper explores the use of hydroxyapatite and lanthanum strontium cobalt ferrite composites in developing aptasensors for detecting SARS-CoV-2.
Research Timeline
Dr. Topkaya Cetinās research timeline reflects a consistent focus on biosensing technologies and electrochemistry. Starting with her Ph.D. research on electrochemical DNA biosensors, her subsequent projects included tissue engineering and nanomaterials-based biosensing techniques during her postdoctoral research. Her timeline highlights key research milestones, including significant international collaborations and the development of novel biosensing methods.
Collaborations and Projects
Throughout her career, Dr. Topkaya Cetin has collaborated with leading researchers and institutions globally. Notable collaborations include her work with Ali Khademhosseini at Harvard-MIT, Michael Holzinger at Joseph Fourier University, and Frank Vollmer at the Max Planck Institute. These collaborations have advanced her research in tissue engineering, nanophotonics, and biosensing technologies, contributing to innovative projects and significant scientific advancements in her field.
Strengths of the Best Researcher Award
- Innovative Research Focus: Dr. Seda Nur Topkaya Cetin’s research in electrochemical biosensors and nanomaterials represents cutting-edge science. Her focus on developing novel biosensing technologies for medical diagnostics, including the detection of gene hypermethylation and single-point mutations, underscores her commitment to advancing molecular diagnostics.
- High Citation Impact: With 1,613 citations across 1,514 documents and an h-index of 18, Dr. Topkaya Cetin’s work is highly influential in her field. This citation record reflects the significant impact and recognition of her research contributions.
- Diverse Expertise and International Experience: Her extensive international research experience, including positions at Harvard Medical School, Max Planck Institute, and Joseph Fourier University, enhances her profile as a leading researcher. This diverse background contributes to her ability to integrate different scientific approaches and technologies.
- Prestigious Awards and Recognitions: Dr. Topkaya Cetin’s accolades, such as the Best Poster Competition Third Prize and the 65th Lindau Nobel Laureate Meeting participation, highlight her recognized excellence in research. These awards validate her contributions and expertise in the scientific community.
- Comprehensive Publications Record: Her extensive list of publications in reputable journals, such as ADMET and DMPK and Biosensors and Bioelectronics, demonstrates her active engagement in advancing the field. These publications cover a wide range of topics, from biosensor applications to electrochemical investigations, reflecting the breadth and depth of her research.
Areas for Improvement
- Increased Focus on Practical Applications: While Dr. Topkaya Cetinās research is highly innovative, a greater emphasis on translating her findings into practical, real-world applications could enhance the societal impact of her work. Bridging the gap between research and commercial or clinical use could further extend the relevance of her studies.
- Expansion of Collaborative Networks: Although she has collaborated with prestigious institutions, expanding her network to include interdisciplinary collaborations, especially with researchers in fields like data science and machine learning, could provide new insights and applications for her biosensing technologies.
- Inclusion of More Diverse Research Areas: While her work is highly specialized in electrochemistry and biosensing, exploring additional related fields, such as bioinformatics or computational modeling, could offer new perspectives and enhance her research outcomes.
- Enhanced Focus on Emerging Technologies: Integrating emerging technologies, such as AI-driven biosensing or advanced nanomaterial innovations, could keep her research at the forefront of scientific advancement and address new challenges in molecular diagnostics.
- Increased Public Engagement and Outreach: Expanding efforts in science communication and public outreach could help in disseminating her research findings more widely. Engaging with broader audiences through popular science talks, media interactions, or educational initiatives could enhance public awareness and appreciation of her work.
Conclusion
Dr. Seda Nur Topkaya Cetinās achievements and contributions to the fields of electrochemistry, biosensor development, and nanomaterials make her a deserving recipient of the Best Researcher Award. Her innovative research, significant citation impact, and extensive international experience underscore her status as a leading figure in her field. However, there are opportunities to further enhance the practical applications of her work, expand collaborative networks, and engage with emerging technologies and public outreach. Addressing these areas could amplify the impact of her research and contribute to even greater advancements in molecular diagnostics and biosensing technologies.