Prof. Grigory Arzumanyan - Raman Spectroscopy and Nanotechnology - Best Researcher AwardÂ
Joint Institute for Nuclear Research - Russia
Author Profile
đ Early Academic Pursuits
Prof. Grigory Arzumanyanâs academic journey began at Yerevan State University (YSU), Armenia, where he completed his undergraduate studies in Physics from 1970 to 1975. After obtaining his M.Sc. in Physics, he continued his education at the Moscow Engineering Physics Institute, Russia, where he completed his post-graduate studies from 1979 to 1982 and earned his Ph.D. in Physics and Mathematics in 1983. These formative years laid the foundation for his future groundbreaking contributions in Raman spectroscopy and nanotechnology.
đźÂ Professional Endeavors
Prof. Arzumanyan's professional career spans multiple prestigious institutions and research organizations. He began his career as a Research Assistant at YSU, Armenia, before transitioning to the Scientific-research Institute of Condensed Matter Physics in 1980. From 1983 to 1994, he was the Senior Researcher and Head of the Laboratory âLaser Technicsâ at R&D Co., Armenia. His tenure at the Joint Institute for Nuclear Research (JINR) in Russia, where he held various senior research and leadership roles from 1995 to 2015, was marked by significant contributions to Raman spectroscopy and nanotechnology. He has been the Head of the Sector of Raman Spectroscopy at the JINRâs Centre âNanobiophotonicsâ since 2015.
đŹÂ Contributions and Research Focus
Prof. Arzumanyanâs research focuses on Raman spectroscopy and microscopy, nanophysics, and nanotechnology. He leads the JINR theme on âOptical methods in Condensed Matter Studies,â with a focus on Raman spectroscopy techniques applied to condensed matter, life sciences, and material sciences. His work on enhancing Raman signals using methods such as CARS (Coherent Anti-Stokes Raman Scattering) and SERS (Surface Enhanced Raman Scattering) has been pivotal in advancing the application of Raman spectroscopy to biological and material samples. His innovative approaches in nanotechnology have opened new avenues for analyzing and diagnosing various materials at the molecular and cellular levels.
đ Impact and Influence
Prof. Arzumanyanâs impact in the fields of Raman spectroscopy and nanotechnology is profound. With more than 100 scientific papers and several patents, he is recognized as a leading authority in nanophysics and laser physics. His contributions to Raman spectroscopy and its applications in life and material sciences have had wide-reaching implications for both research and industry. As the Chairman of the regional board of the Russian Nanotechnology Society in Dubna, he continues to influence the development of nanotechnology and related fields. He has also contributed to numerous international and national conferences, delivering keynote and invited talks.
đAcademic Cites
Prof. Arzumanyanâs work is widely cited in academic literature, reflecting the significant impact of his contributions to Raman spectroscopy and nanotechnology. His publications are frequently referenced by researchers in condensed matter studies, life sciences, and material sciences. The high citation count of his work underscores its importance in advancing scientific understanding and technological applications.
đ Legacy and Future Contributions
As a pioneer in Raman spectroscopy and nanotechnology, Prof. Arzumanyanâs legacy will continue to shape the future of these fields. His ongoing work in enhancing Raman techniques and applying them to various scientific domains ensures that his influence will persist for years to come. Looking forward, Prof. Arzumanyan aims to further expand the applications of Raman spectroscopy and nanotechnology, particularly in the fields of biomedical diagnostics and material sciences, cementing his place as a key figure in the global scientific community.
đRaman Spectroscopy and Nanotechnology
Prof. Grigory Arzumanyanâs research in Raman spectroscopy and nanotechnology has led to transformative advancements in the understanding and application of these technologies. His work on enhancing Raman spectroscopy through techniques like CARS and SERS has revolutionized its use in both material and life sciences. The continued exploration of nanotechnology in his research promises to unlock new possibilities for scientific and technological innovation.
Notable Publication
đDesign, characterization and implementation of cost-effective sodium alginate/water hyacinth microspheres for remediation of lead and cadmium from wastewater
Authors: Refaat, A., Ibrahim, M.A., Shehata, D., Mamatkulov, K., Arzumanyan, G.
Journal: International Journal of Biological Macromolecules
Year: 2024
Citations: 0
đVibrational Spectroscopic Features of Ibuprofen and Ketoprofen: IR and Raman Spectroscopy Combined with DFT Calculations
Authors: Logacheva, K., Gergelezhiu, P., Raksha, E., Belushkin, A., Chudoba, D.
Journal: Physics of Particles and Nuclei Letters
Year: 2024
Citations: 1
đConformational analysis of lipid membrane mimetics modified with Aβ42 peptide by Raman spectroscopy and computer simulations
Authors: Mamatkulov, K., Zavatski, S., Arynbek, Y., Bandarenka, H., Arzumanyan, G.
Journal: Journal of Biomolecular Structure and Dynamics
Year: 2024
Citations: 1 (In Press)
đArrangement of lipid vesicles and bicelle-like structures formed in the presence of Aβ(25â35) peptide
Authors: Kurakin, S., Badreeva, D., Dushanov, E., Klochkov, V., KuÄerka, N.
Journal: Biochimica et Biophysica Acta - Biomembranes
Year: 2024
Citations: 3
đRadiation from UV-A to Red Light Induces ROS-Dependent Release of Neutrophil Extracellular Traps
Authors: Arzumanyan, G., Mamatkulov, K., Arynbek, Y., JevremoviÄ, A., Vorobjeva, N.
Journal: International Journal of Molecular Sciences
Year: 2023
Citations: 6
đModel phospholipid interaction with cholesterol and melatonin: Raman spectroscopy and density functional theory study
Authors: Zavatski, S., Bandarenka, H., HetmaĹczyk, Ĺ., Mamatkulov, K., Arzumanyan, G.
Journal: Journal of Raman Spectroscopy
Year: 2022
Citations: 1