Assoc. Prof. Dr. NIMET YILDIRIM TİRGİL | Engineering | Best Researcher Award 

Associate Professor, at Ankara Yildirim Beyazit University, Turkey.

Dr. Nimet Yildirim Tirgil is an Assistant Professor in Biomedical Engineering at Ankara Yıldırım Beyazıt University. She specializes in biosensor technology, nanomaterials, and electrochemical analysis for environmental and medical applications. With a strong background in bioengineering and biochemistry, Dr. Yildirim Tirgil has led multiple research projects funded by TÜBİTAK and TÜSEB, focusing on biosensing platforms for rapid diagnostics, including COVID-19 antibody detection, tumor DNA analysis, and neurotransmitter monitoring. Her work has led to several patents, high-impact publications, and collaborations in the field of biosensor innovation. Dr. Yildirim Tirgil is committed to advancing analytical chemistry and nanotechnology to develop cutting-edge biosensing solutions.

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🎓 Education

Dr. Yildirim Tirgil holds a Ph.D. in Bioengineering from Northeastern University (2016), where she developed next-generation biosensor systems for environmental water quality monitoring under the supervision of Prof. April Z. Gu. She earned her M.Sc. in Biochemistry from Ege University (2009), focusing on bacterial sensors and nanomaterial-modified electrodes, and completed her B.Sc. in Biochemistry (2007) from the same university. Her academic journey has equipped her with interdisciplinary expertise in bioengineering, nanotechnology, and analytical chemistry, enabling her to contribute significantly to biosensor research and development.

💼 Experience

Dr. Yildirim Tirgil has been an Associate Professor at Ankara Yıldırım Beyazıt University since 2018, leading research in biomedical engineering. She has extensive experience in supervising graduate theses, mentoring students in biosensor technology, and developing nanomaterial-based detection systems. She has served as Principal Investigator on numerous national and international research projects, including the development of electrochemical biosensors for detecting environmental pollutants, disease biomarkers, and bioterrorism agents. Her collaborations extend to government-funded research programs and industrial partnerships, advancing biosensing technologies for healthcare, food safety, and environmental monitoring.

🔬 Research Interests

Dr. Yildirim Tirgil’s research focuses on biosensor development, nanotechnology, and electrochemical analysis for medical diagnostics and environmental applications. Her primary interests include:

• Aptamer-based biosensors for disease biomarker detection.

• Electrochemical sensing platforms for rapid pathogen and toxin identification.

• Nanomaterial-modified electrodes for enhanced biosensing performance.

• Wearable and paper-based biosensors for real-time health monitoring.

• Smart biosensor integration for food safety and environmental protection.

Her interdisciplinary research integrates biotechnology, analytical chemistry, and materials science to develop innovative biosensing solutions with high sensitivity and specificity.

🏆 Awards & Recognitions

Dr. Yildirim Tirgil has received multiple awards for her groundbreaking work in biosensor technology, including:

• Best Research Paper Award in Analytical Chemistry (2024).

• TÜBİTAK Research Excellence Award for contributions to biosensor innovation (2023).

• Outstanding Young Scientist Award in Biomedical Engineering (2022).

• Top Cited Researcher Recognition in ACS Applied Polymer Materials (2025).

• Innovation Award for the development of a smartphone-assisted biosensor system (2021).

Her achievements highlight her impact on sensor technology and analytical diagnostics, making her a leading figure in biosensing research.

📚 Top Noted Publications

Dr. Yildirim Tirgil has published extensively in high-impact journals. Some of her key publications include:

• Sanattalab, E., Ayni, E., Kaya, K., & Yildirim‐Tirgil, N. (2025).
  Applications of Magnetic Nanocomposites in Lateral Flow Assays.
  Journal: ChemistrySelect
  Summary: This paper explores the use of magnetic nanocomposites in lateral flow assays, enhancing sensitivity and specificity for rapid diagnostic applications.

• Yildirim-Tirgil, N., Ayni, E., & Kaya, K. (2025).
  Electrochemical Detection of SARS-CoV2 IgG Using Magnetic Nanocomplexes.
  Journal: Journal of Nanoparticle Research
  Summary: The study presents a novel electrochemical biosensor utilizing magnetic nanocomplexes for detecting SARS-CoV-2 IgG antibodies, providing a potential point-of-care diagnostic solution.

• Avci, M. B., Kocer, F., Yildirim-Tirgil, N., et al. (2025).
  Optofluidic Guided-Mode Resonance Platform for Binding Kinetics.
  Journal: IEEE Sensors Journal
  Summary: This research introduces an optofluidic guided-mode resonance platform for real-time analysis of biomolecular interactions, focusing on binding kinetics measurements.

• Yildirim-Tirgil, N., et al. (2025).
  Development of a Polypyrrole–Chitosan Nanofiber-Based Enzymatic Biosensor.
  Journal: ACS Applied Polymer Materials
  Summary: The paper discusses the fabrication and characterization of an enzymatic biosensor using polypyrrole–chitosan nanofibers for enhanced sensitivity in biochemical detection.

• Didarian, R., Ozbek, H. K., Ozalp, V. C., Erel, O., & Yildirim-Tirgil, N. (2024).
  Enhanced SELEX Platforms for Aptamer Selection.
  Journal: Molecular Biotechnology
  Summary: The study proposes improvements in SELEX (Systematic Evolution of Ligands by EXponential Enrichment) methodologies for more efficient aptamer selection, applicable in biosensing and therapeutics.

• Cuhadar, S. N., Durmaz, H., & Yildirim-Tirgil, N. (2024).
  Multi-Detection of Serotonin and Dopamine via Electrochemical Aptasensor.
  Journal: Chemical Papers
  Summary: This paper introduces an electrochemical aptasensor for the simultaneous detection of serotonin and dopamine, contributing to advancements in neurochemical monitoring.

• Sahin, S., & Tirgil, N. Y. (2024).
  Circulating Tumor DNA (ctDNA) Detection via Electrochemical Biosensing.
  Journal: MANAS Journal of Engineering
  Summary: The study develops an electrochemical biosensor for detecting circulating tumor DNA (ctDNA), offering potential applications in early cancer diagnostics.

Conclusion

Dr. Nimet Yildirim Tirgil is a highly qualified and competitive candidate for the Best Researcher Award. Her groundbreaking work in biosensors, nanomaterials, and biomedical applications, along with strong project leadership and patent contributions, position her as a leader in her field. Enhancing international collaborations and industry partnerships could further elevate her candidacy.