Head of Laboratory High Voltage Engineering, Institute of physics of Ministry of Science and Education, Azerbaijanđź“–
Dr. Tarana K. Nurubeyli is a distinguished physicist with expertise in mass spectrometry, material analysis, and advanced research methodologies. She holds a Doctorate in Physical Sciences and serves as the Head of Laboratory at the Institute of Physics, Azerbaijan National Academy of Sciences. She is also an Associate Professor at Azerbaijan State Oil and Industry University and an adjunct professor at Khazar University. Dr. Nurubeyli has been actively involved in interdisciplinary research, contributing to innovative techniques in oil and gas exploration, environmental studies, and materials science.
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Education Background🎓
Dr. Tarana K. Nurubeyli has a strong academic foundation in physics, beginning with her Bachelor’s (1995–1999) and Master’s (1999–2001) degrees from Baku State University, where she graduated with honors. She pursued her doctoral studies at the Institute of Physics, Azerbaijan National Academy of Sciences, earning her Ph.D. in Physics in 2010. Her academic journey culminated in obtaining the prestigious Doctor of Physical Sciences degree from the same institute in 2021. Her educational achievements highlight her commitment to advancing knowledge in physics and related disciplines.
Professional Experience🌱
Dr. Nurubeyli leads a laboratory at the Institute of Physics, Ministry of Science and Education, Azerbaijan, focusing on advanced spectrometry and materials analysis. She is an Associate Professor in Electromechanics at Azerbaijan State Oil and Industry University and has been a guest lecturer at Khazar University. Her work includes organizing international conferences, reviewing for high-impact journals, and serving on editorial boards of scientific publications, including Journal of Chemistry and Physics and American Journal of Physics and Applications.
Research Interest🔬
Dr. Nurubeyli specializes in the application of inductively coupled plasma mass spectrometry (ICP-MS) for analyzing biological, environmental, and geological samples. Her research spans improving sensitivity in spectrometry, investigating the elemental distribution in solid rocks for hydrocarbon exploration, and developing methods for transformer condition assessments. She is also engaged in material science projects, focusing on magnetic resistance and nanocomposite applications.
Author MetricsÂ
Dr. Nurubeyli has authored and co-authored several peer-reviewed journal articles, presented at international workshops, and contributed to multidisciplinary research. She has multiple patents related to spectrometry and instrumentation, reflecting her innovative contributions to science. Her work is indexed in Scopus and has received citations in leading journals, showcasing her impact on the global scientific community.
Key Achievements
- Spearheaded projects enhancing the accuracy of oil and gas exploration using advanced mass spectrometry techniques.
- Developed methodologies for heavy metal soil neutralization and biological material analysis.
- Delivered presentations at prestigious international conferences, such as the 15th International Workshop in Assisi, Italy (2022).
- Successfully led grant projects funded by the State Oil Company of Azerbaijan Republic.
Publications Top Notes đź“„
1. The Role of the Spectral Matrix Effect in the Element Analysis of Biological Fluids in ICP-MS
- Authors: TK Nurubeyli, KN Ahmadova
- Journal: Modern Physics Letters B
- Volume & Issue: Vol. 35, Issue 05
- Article Number: 2150094
- Year: 2021
- Abstract: This study investigates the spectral matrix effects in ICP-MS during the elemental analysis of biological fluids. It identifies key interference mechanisms and suggests techniques for reducing errors to improve result accuracy.
- Citations: 6
2. The Effect of Plasma Density on the Degree of Suppression of Analyte Signals in ICP-MS
- Author: TK Nurubeyli
- Journal: Technical Physics
- Volume & Issue: Vol. 65, Issue 12
- Pages: 1963–1968
- Year: 2020
- Abstract: The paper examines how plasma density variations affect signal suppression in ICP-MS analytes. Strategies for optimizing plasma parameters are discussed to enhance measurement sensitivity and accuracy.
- Citations: 6
3. Coefficient of Relative Sensitivity in Mass Spectrometers with Inductively Coupled Plasma
- Author: TK Nurubeyli
- Journal: Inorganic Materials: Applied Research
- Volume & Issue: Vol. 11, Issue 3
- Pages: 552–557
- Year: 2020
- Abstract: This research develops the concept of relative sensitivity coefficients in ICP-MS for multi-element analysis, exploring factors influencing sensitivity and calibration improvements.
- Citations: 3
4. Improvement of Treatment Methods in Analysis of Carbon Mountain Breeds by ICP-MS
- Authors: TK Nurubeyli, AM Hashimov, ZK Nurubeyli, KN Ahmadova, SI Hasanova
- Journal: International Journal on Technical and Physical Problems of Engineering
- Year: 2020
- Abstract: The study proposes enhanced treatment methodologies for analyzing carbon-rich mountain rocks with ICP-MS, focusing on reducing matrix effects for better trace element quantification.
- Citations: 3
5. Role of the Matrix Effect in Analysis of Biological Objects Using Mass Spectrometry with Inductively Coupled Plasma
- Authors: TK Nurubeyli, KZ Nuriyev, ZK Nurubeyli, KB Gurbanov
- Journal: Technical Physics
- Volume: 64
- Pages: 909–915
- Year: 2019
- Abstract: This publication delves into matrix effects on biological sample analysis using ICP-MS. It identifies interference factors and proposes corrective measures for accurate elemental analysis.
- Citations: 3
Conclusion
Dr. Tarana K. Nurubeyli exemplifies excellence in research through her significant advancements in mass spectrometry and interdisciplinary science. Her innovative methodologies, impactful publications, and leadership roles in academia and industry position her as a leading figure in her field. By addressing the areas of improvement, such as diversifying funding and fostering broader collaborations, she can further amplify her already impressive contributions.