University of Priština - Serbia
Professional Profiles
Early Academic Pursuits:
Bojana Laban's academic journey began at the Faculty of Sciences and Mathematics, University of Priština, Serbia. Intrigued by the world of Chemistry, she earned her Bachelor's degree in the subject from the same institution in 2008, setting the stage for her future academic and research pursuits. Driven by a passion for advancing scientific knowledge, Bojana took a significant step forward by pursuing a Ph.D. in Chemistry at the Faculty of Chemistry, University of Belgrade. Her early academic years laid a robust foundation for the groundbreaking contributions she would make in the field.
Professional Endeavors:
Bojana Laban's professional journey reflects a commitment to both education and research. Joining the academic community at the University of Priština in various capacities, she began as a teaching trainee in 2009, progressing to become a teaching assistant by 2012. Her dedication to academic excellence propelled her to the role of assistant professor in 2018, and she currently holds the esteemed position of associate professor since 2022.
Contributions and Research Focus:
Bojana's research interests have centered around the synthesis and modification of metal and metal oxide nanoparticles. Her work extends to the study of chemical reactions occurring on nanoparticle surfaces, delving into intricate processes at the nanoscale. Her diverse research portfolio includes investigations into silver nanoparticles, cyanine dye, J-aggregation, fluorescence, kinetics, binding mechanisms, iron oxide nanoparticles, gold nanoparticles, and the green synthesis of nanoparticles. Bojana's contributions mark a significant advancement in understanding the behavior of nanoparticles and their potential applications.
Accolades and Recognition:
Bojana Laban's dedication to scientific inquiry has not gone unnoticed. Her contributions to the field have earned her recognition as a research associate since 2019. Her work has been acknowledged within the academic and research communities, positioning her as a respected figure in the realm of Chemistry.
Impact and Influence:
Beyond her research papers, Bojana Laban has had a profound impact as an educator and mentor. As an associate professor, she plays a pivotal role in shaping the future generation of scientists. Her influence extends beyond the laboratory, contributing to the academic and professional growth of her students. Bojana's mentorship is characterized by a commitment to nurturing curiosity, critical thinking, and a passion for scientific exploration.
Legacy and Future Contributions:
Bojana Laban's legacy is marked by a relentless pursuit of scientific excellence and a commitment to expanding the frontiers of knowledge in Chemistry. Her current contributions and impactful research lay the groundwork for future breakthroughs in the field. As she continues her journey, Bojana's work inspires and paves the way for the next generation of researchers, instilling a spirit of innovation and inquiry. Explore the frontier of Inorganic Chemistry with a focus on nanomaterials through Bojana Laban's groundbreaking research, uncovering novel synthesis methods and unraveling the intricate properties of these materials. Her work in transition metals, coordination compounds, and molecular inorganic chemistry reflects a commitment to advancing the field. Bojana Laban is at the forefront, blending expertise in chemical synthesis with a deep understanding of inorganic phenomena, making significant contributions and leaving an indelible mark in the realm of Inorganic Chemistry. Recognized as a trailblazer, she embodies excellence and innovation, earning her the prestigious Women Researcher Award in 2024.
Notable Publications
A combined experimental and DFT study of metal core/indocyanine green shell hybrid nanoparticles 2023-12
Cover Feature: Methionine Capped Nanoparticles as Acetylcholinesterase Inhibitors (Eur. J. Inorg. Chem. 12/2023)
Methionine Capped Nanoparticles as Acetylcholinesterase Inhibitors 2023-04-25
An Efficient Electrochemical Sensing of Caffeic Acid at Thermolysis Prepared Urea-formaldehyde Resin Modified with Fe(III) and Ti(IV) Oxide Particles 2022-12
5.3 Application of nanospectroscopy methods to study cyanine dyes – J-aggregation on the surface of noble metal nanoparticles 2022-12-19