Ahmad Ghanbari | Physical Chemistry | Best Researcher Award

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Dr. Ahmad Ghanbari | Physical Chemistry | Best Researcher Award

Yasouj University | Iran

Dr. Ahmad Ghanbari is a distinguished physicist whose research in condensed matter physics and interdisciplinary theoretical modeling has positioned him among the top two percent of scientists worldwide in 2025. With a prolific record of 44 peer-reviewed publications, Dr. Ghanbari has made influential contributions to statistical mechanics, thermodynamics, biomedical physics, and quantum systems. His innovative application of non-extensive thermodynamic entropy provided a novel and highly accurate method for predicting the dynamics, spread, and mortality rates of COVID-19, demonstrating the power of physical models in epidemiological forecasting. In biomedical physics, he has pushed scientific boundaries by modifying the classical Lotka–Volterra equation to more accurately describe the competitive behavior between normal and cancerous cells, offering new perspectives for understanding tumor growth and treatment dynamics. His groundbreaking study on the thermodynamic behavior of cancer tumors, particularly the influence of a tilted external magnetic field on interstitial fluid pressure within spherical tumors, provides valuable theoretical insights that could support advancements in cancer therapy and targeted treatment strategies. Beyond biomedical applications, Dr. Ghanbari has conducted extensive research into the thermodynamic properties of diatomic molecules, contributing to a deeper understanding of molecular interactions and energy states. His work on quantum nanostructures further demonstrates his versatility, addressing complex quantum behaviors that underpin next-generation nano-devices and materials. Complementing his research excellence, Dr. Ghanbari has dedicated three years to teaching at Yasouj University, shaping the academic and scientific development of future physicists.

Profiles : Scopus | Google Scholar 

Featured Publications

Ghanbari, A. (2025). Theoretical calculations of thermal functions of diatomic molecules using shifted Deng-Fan potential. Computational and Theoretical Chemistry, 1248, 115186.

Ghanbari, A., & Khordad, R. (2025). A theoretical model to study the influence of an external tilted magnetic field on interstitial fluid flow inside a cylindrical tumor with capillaries. International Journal of Modern Physics C, 36(07), 2450251.

Ghanbari, A. (2025). Computational investigation of magnetic field effect on thermal function of diatomic molecules with anharmonic oscillator potential. Computational and Theoretical Chemistry, 1243, 114991.

Ghanbari, A., Khordad, R., & Ghaderi-Zefrehei, M. (2025). A modified Lotka–Volterra equation for the investigation of competition between normal and cancer cells. International Journal of Modern Physics C, 36(11), 1–12.

Ghanbari, A. (2024). Aharonov–Bohm flux, topological defect and magnetic field effects on the optical properties of quantum dots in a quantum-plasma environment. Journal of Computational Electronics, 23(1), 22–31.

Nikolaos Koletsis | Biochemistry | Best Researcher Award

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Mr. Nikolaos Koletsis | Biochemistry | Best Researcher Award

National and Kapodistrian University of Athens | Greece

Nikolaos E. Koletsis is a chemist with a Master of Science in Applied Biochemistry from the University of Patras and a Bachelor of Science in Chemistry from the University of Ioannina. His academic and research background is grounded in molecular and cellular biochemistry, with a particular emphasis on cancer biology, extracellular matrix (ECM) dynamics, and the development of three-dimensional (3D) cell culture models. During his MSc research at the Laboratory of Biochemistry, University of Patras, he investigated the functional properties and differential expression of key ECM components in 3D breast cancer spheroids. His work integrated advanced biochemical techniques including 3D cell culture, gene expression analysis (qPCR), HPLC, ELISA, electrophoresis, and statistical methodologies such as T-test and ANOVA. This project has culminated in both national and international presentations, and a first-author publication in Cells. Koletsis also conducted pioneering undergraduate research at the University of Ioannina, synthesizing novel alkaline earth metal-organic frameworks (MOFs) with potential applications in biodiesel catalysis. This work led to the identification of a new magnesium-glycerol complex, a structure reported for the first time in literature. He has co-authored three peer-reviewed journal articles indexed in Scopus, which have collectively received 15 citations, and he currently holds an h-index of 1. His publications appear in respected journals such as Cells, FEBS Journal, and Archives of Medical Science – Atherosclerotic Diseases, reflecting the interdisciplinary and impactful nature of his work. In addition to his lab-based expertise, Koletsis is adept in scientific writing, data analysis, and conference presentations, demonstrating a clear capacity for translating experimental data into meaningful scientific contributions. His career interests lie at the intersection of biomedical research, applied sciences, and translational innovations in cancer and materials chemistry.

Profiles : Scopus | Orcid

Featured Publications

  • Koletsis, N. E., Mangani, S., Franchi, M., Piperigkou, Z., & Karamanos, N. K. (2025). Development, functional characterization, and matrix effectors dynamics in 3D spheroids of triple-negative breast cancer cells. Cells, 14(17), 1351.

  • Anagnostopoulos, S., Baltayiannis, N., Koletsis, N. E., et al. (2025). 3D printing in medicine: Bridging imaging, education, and practice. Archives of Medical Science – Atherosclerotic Diseases, 10(1), 172–188.

  • Mangani, S., Piperigkou, Z., Koletsis, N. E., Ioannou, P., & Karamanos, N. K. (2024). Estrogen receptors and extracellular matrix: The critical interplay in cancer development and progression. FEBS Journal.

  • Piperigkou, Z., Mangani, S., Koletsis, N. E., Koutsakis, C., Mastronikolis, N. S., Franchi, M., & Karamanos, N. K. (2025). Principal mechanisms of extracellular matrix-mediated cell–cell communication in physiological and tumor microenvironments. FEBS Journal.

 

Beril Anilanmert | Analytical Chemistry | Outstanding Contribution Award

Published on by Analytical Chemistry

Assoc. Prof. Dr. Beril Anilanmert | Analytical Chemistry | Outstanding Contribution Award

Istanbul University-Cerrahpasa Institute of Forensic Sciences and Legal Medicine | Turkey

Beril Anılanmert is an accomplished Turkish forensic scientist and analytical chemist, with dual doctorates: one in forensic sciences from Istanbul University, and another in analytical chemistry from Marmara University. She also holds an MSc and a BPharm from Marmara, with specialization in pharmacy and analytical methods. She is an Associate Professor at Istanbul University‑Cerrahpaşa in the Institute of Forensic Sciences, Department of Natural and Applied Sciences. Prior positions include associate professorship at Istanbul University, medical research positions in forensic medicine, assistant professorship in pharmacy, and earlier work as a research assistant. Her research has centered on development and validation of sensitive analytical techniques (especially LC‑MS/MS, HPLC, etc.) for detecting psychoactive substances, designer drugs, date‑rape drugs, explosive residues, and related toxicants in biological and environmental matrices. She has led multiple funded projects, published over 100 peer‑reviewed articles in high‑impact and SCI/SSCI journals, authored several book chapters, and contributed to laboratory accreditation and capacity building. Her work combines methodological rigor with strong applicability to forensic, public health, and legal challenges. She has published 107 items, with 167 citations in Web of Science (WoS), 182 in Scopus, and a WoS and Scopus h‑index of 7. These reflect modest citation counts relative to publication volume, but indicate a solid presence in her fields.

Profiles : Scopus | Orcid

Featured Publications

  • Rayimoğlu, G., Yonar, F. C., & Anılanmert, B. (2025). From one strand dyed/undyed hair with/without root to fast and successful STR profiling and evaluation with principle component analysis. Electrophoresis.

  • Anılanmert, B., Çağlar-Andac, S., & Narin, İ. (2023). Urgent first‑step screening method for ketamine, phenobarbital, zopiclone, zolpidem, phenytoin and thiopental in adulterated soft drink. Pakistan Journal of Pharmaceutical Sciences, 36(5), 1407‑1414.

  • Cavus Yonar, F., Anılanmert, B., & Acikkol, M. (2024). Short‑cut route validated for monitoring fentanyl and its metabolite in urine using LC–MS/MS, in a wide concentration range. Future Journal of Pharmaceutical Sciences, 10, Article 82.

  • Anılanmert, B., & Yonar, F. C. (2023). Speedy Gonzales analysis method in one drop of beverage, for crimes committed with drugs from three different groups. Analytical Sciences, 39(6), 843‑849.

  • Şener, H., Anılanmert, B., Mavis, M. E., Goksu Gursu, G., & Cengiz, S. (2022). LC‑MS/MS monitoring for explosives residues and OGSR with diverse ionization temperatures in soil & hands: 30 minutes for extraction + elution. Acta Chromatographica, 34(3), 304‑314.

 

Guanqun Li | Analytical Chemistry | Young Researcher Award

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Dr. Guanqun Li | Analytical Chemistry |Young Researcher Award

Sinopec Shengli Oilfield Co., Ltd., China

🎓 Early Academic Pursuits

Dr. Guanqun Li embarked on her academic journey with a strong focus on the field of oil and gas development. She earned her Master’s degree in Oil and Gas Field Development Engineering from Yangtze University (Sep. 2016 – June 2019), where she laid the groundwork for her specialization in shale reservoir studies. Building on this foundation, she pursued a Ph.D. in Oil and Gas Field Development Engineering at the China University of Petroleum (East China) from Sep. 2019 to June 2023. Her doctoral studies delved deeply into the microscopic characterization of shale reservoirs and the mechanisms driving fluid movement within these complex formations.

🧑‍🔬 Professional Endeavors

Following her academic training, Dr. Li took on the role of Associate Researcher at Sinopec Shengli Oilfield Co., Ltd., one of China’s major oil and gas enterprises. In this capacity, she contributes to the advancement of reservoir development strategies and applies her academic insights to practical field challenges. Her work involves integrating theoretical research into real-world oilfield operations, particularly within unconventional shale plays.

🔬 Contributions and Research Focus

Dr. Li’s core research centers around the microscopic structure of shale reservoirs and the fluid motion behaviors within them. Her investigations explore the space characterization of shale, revealing how reservoir geometry affects oil and gas recovery. Additionally, she has pioneered studies on liquid/gas and liquid-gas two-phase flow in shale formations. A significant focus of her work lies in shale oil volume fracturing infiltration mechanisms, analyzing how hydraulic fracturing fluids interact with the formation through imbibition kinetics, microscale effects, and boundary condition variances. She also developed a horizontal well productivity model that incorporates the influence of fracturing fluid imbibition, offering new insights into optimizing shale oil recovery.

🌍 Impact and Influence

Dr. Li’s research has a profound impact on the enhancement of shale oil recovery techniques, particularly within unconventional reservoirs. Her work contributes to more efficient and environmentally conscious energy extraction, aligning with global efforts to optimize fossil fuel usage while minimizing geological disturbance. By providing models and frameworks to predict fluid behavior and productivity outcomes, she empowers engineers and decision-makers with tools for better reservoir management.

📊 Academic Citations and Recognition

Although still in the early stages of her professional career, Dr. Li’s research contributions are gaining recognition within academic and industry circles. Her innovative perspectives on imbibition behavior and microscale reservoir dynamics have opened new discussions in the petroleum engineering community. Her academic work is expected to continue gaining traction and citations as her research matures and integrates into mainstream oilfield development practices.

🛠️ Technical Skills

Dr. Li possesses a robust suite of technical skills tailored to oil and gas reservoir analysis. These include microscopic imaging and analysis of shale structures, fluid dynamics simulation, imbibition modeling, and reservoir productivity evaluation. Her proficiency with analytical tools and modeling software enables her to bridge laboratory findings with field applications.

👩‍🏫 Teaching Experience

During her doctoral studies, Dr. Li was actively involved in academic collaborations, likely contributing to mentoring junior students and assisting in research projects within her department. Her ability to translate complex scientific concepts into practical insights makes her an asset not only in research but also in academic mentorship and collaborative innovation.

🌟 Legacy and Future Contributions

Dr. Guanqun Li is poised to leave a lasting legacy in the field of shale oil recovery. Her unique focus on the microscale mechanisms of fracturing fluid behavior contributes to a more nuanced understanding of reservoir engineering. As she continues her career with Sinopec, her work is expected to shape future strategies for enhanced oil recovery (EOR) and sustainable resource development. Her commitment to research, innovation, and field integration ensures that she will remain a key contributor to China’s and the global petroleum industry’s evolution.

📖Notable Publications

Quantifying lithofacies-dependent imbibition behavior in continental shale oil by fractal modeling: A case study of the gentle slope fault zone, Jiyang Depression
Authors: Guanqun Li, Yanxia Peng, Yong Yang, et al.
Journal: Fuel
Year: 2025

The fractal analysis of the forced imbibition process in roughened porous media with slip length
Authors: Guanqun Li, Yong Yang, Xiaopeng Cao, et al.
Journal: Physics of Fluids
Year: 2025

Generalized analytical solutions of imbibition characteristic behavior in shale matrix blocks under different boundary conditions
Authors: Guanqun Li, Yong Yang, Xiaopeng Cao, et al.
Journal: Geoenergy Science and Engineering
Year: 2025

The fractal mathematical models for spontaneous and forced imbibition with different cross-section shapes in shale oil reservoir
Authors: Guanqun Li, Yuliang Su, Wendong Wang
Journal: Fractals
Year: 2023

Mathematical model and application of spontaneous and forced imbibition in shale porous media considered forced pressure and osmosis
Authors: Guanqun Li, Yuliang Su, Wendong Wang, et al.
Journal: Energy & Fuels
Year: 2022