Gunel Imanova | Astronomy | Women Researcher Award

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Assoc Prof Dr. Gunel Imanova | Astronomy | Women Researcher Award

Leading Researcher at Ministry of Science and Education Republic of Azerbaijan, Institute of Radiation Problems, Azerbaijan.

Gunel Imanova is a distinguished physicist with a robust background in radiation materials science, materials physics, physical chemistry, and experimental physics. Holding a Ph.D. in Physics and the title of Associate Professor, Gunel serves as a Leading Researcher at the Ministry of Science and Education, Republic of Azerbaijan, Institute of Radiation Problems. Her academic journey began at Baku State University, where she graduated with honors with both a bachelor’s and master’s degree in Physics. Since then, Gunel has steadily advanced in her career, holding various positions within the Institute of Radiation Problems, including Chief Laboratory Technician, Junior Researcher, Researcher, and Senior Researcher before attaining her current role. Her research interests span diverse areas, including physics, radiation materials science, kinetics, nanoparticle synthesis, hydrogen production, nano-catalysis, and analysis techniques. Gunel’s prolific scholarly activities are reflected in her extensive publication record, participation in international conferences, and editorial roles in prestigious scientific journals. Throughout her career, Gunel has received numerous awards, honors, and fellowships, recognizing her exceptional contributions to the field of physics and radiation materials science. She is widely respected for her expertise, leadership, and dedication to advancing scientific knowledge and fostering collaboration within the global scientific community.

Professional Profiles:

Education:

Gunel Imanova’s educational journey is characterized by excellence and dedication to the field of physics. She pursued her higher education at Baku State University, a renowned institution in Azerbaijan, where she obtained both her bachelor’s and master’s degrees with honors in Physics. These achievements laid a solid foundation for her future academic and research endeavors. Following her undergraduate studies, Gunel continued her academic pursuits at Baku State University, where she pursued advanced studies in Physics. Her commitment to academic excellence and research excellence culminated in the successful defense of her doctoral dissertation in 2018, earning her a Ph.D. degree in Physics. Throughout her academic career, Gunel has demonstrated a passion for learning and a keen interest in pushing the boundaries of scientific knowledge. Her educational background, coupled with her dedication to research, has equipped her with the expertise and skills necessary to make significant contributions to the field of physics, particularly in areas such as radiation materials science, materials physics, physical chemistry, and experimental physics.

Professional Experience:

Gunel Imanova’s career trajectory exemplifies a steadfast dedication to advancing scientific knowledge and research in the realm of physics, particularly in radiation materials science and related domains. Commencing her professional journey as a Chief Laboratory Technician at the Ministry of Science and Education, Republic of Azerbaijan, Institute of Radiation Problems, she laid a solid groundwork in laboratory practices. Progressing to the role of Junior Researcher, she delved into specialized research projects, contributing substantially to the scientific discourse of her field. Subsequent promotions to Researcher and Senior Researcher positions marked her growing expertise and leadership within the institute, where she actively engaged in research, publication, and conference presentations, consolidating her standing as a respected scientist. Presently, as a Leading Researcher, Gunel assumes a pivotal role in steering research endeavors, leading teams, securing funding, and fostering collaborations on both domestic and international fronts. Throughout her journey, Gunel’s unwavering commitment to excellence has been evident, shaping her as a prominent figure in the field of physics and radiation materials science.

Research Contributions:

In her exploration of Physics and Radiation Materials Science, Gunel scrutinizes the intricate interplay between radiation and material properties. Through meticulous experimentation and analysis, she endeavors to unravel the effects of gamma irradiation, radiolysis, and other forms of radiation on the structural, mechanical, and chemical characteristics of diverse materials. This research contributes valuable insights into radiation’s impact on material behavior, with implications for fields ranging from nuclear engineering to materials science applications in space. In tandem with her investigations into radiation’s effects, Gunel delves into Materials Physics and Physical Chemistry. Her work in this domain is characterized by a quest to decipher the fundamental principles dictating the physical and chemical attributes of materials. By probing materials at atomic and molecular levels, she seeks to elucidate their intrinsic properties, synthesis mechanisms, and structural dynamics. Such endeavors not only deepen our understanding of materials but also pave the way for innovative material design and fabrication strategies. Gunel’s commitment to experimental inquiry is evident in her engagement with Experimental Physics. Through meticulously designed experiments, she endeavors to uncover the underlying mechanisms governing diverse physical phenomena. Her research spans a gamut of topics, including kinetics, nanoparticle synthesis, adsorption phenomena, and heterogeneous catalysis. By leveraging experimental techniques, she sheds light on the intricacies of these phenomena, facilitating the development of novel materials and technologies.

Awards and Honors:

Gunel Imanova’s exemplary contributions to the field of physics and radiation materials science have earned her numerous awards and honors, underscoring her outstanding achievements and recognition within the academic community. Throughout her illustrious career, Gunel has been the recipient of prestigious accolades and commendations that highlight her dedication to excellence and scholarly pursuit. In recognition of her significant scientific contributions, Gunel has been honored with diplomas by esteemed institutions such as the ANAS Institute of Radiation Problems, Council of Young Scientists and Specialists, Trade Union Organization, and Women’s Council. These accolades serve as a testament to her exceptional research endeavors and leadership within her field. Gunel’s prolific scholarly activities have also garnered acclaim on the international stage. Her participation in numerous international conferences between 2020 and 2022 has been recognized with over 90 participant and speaker certificates, underscoring her impactful presence and influence within the global scientific community. Furthermore, Gunel’s dedication to scholarly publishing and editorial contributions has been acknowledged through her membership in the editorial boards of esteemed foreign publishing houses. Her roles, including Editor-in-Chief and Assistant Editor, demonstrate her commitment to advancing scientific discourse and fostering collaboration across international borders.

Skills:

Gunel Imanova’s extensive skill set is a testament to her expertise and proficiency in the field of physics and materials science. With a strong foundation in research, she demonstrates exceptional analytical abilities, adept at designing experiments, analyzing data, and drawing meaningful conclusions. Her problem-solving skills are notable, as she can identify challenges and develop innovative solutions to complex scientific inquiries. Gunel’s leadership and management capabilities shine through her role as a Leading Researcher, where she effectively coordinates team efforts, fosters collaboration, and oversees research projects with precision and dedication. Communication is another one of Gunel’s strengths, evident in her clear and compelling presentation of scientific concepts and research findings. Whether through conference presentations, scientific publications, or editorial contributions, she effectively communicates her ideas to a wide audience. Her proficiency in publication and grant writing further underscores her ability to articulate research proposals and manuscripts with clarity and precision, contributing to the advancement of scientific knowledge. Gunel’s collaborative spirit and networking prowess have facilitated interdisciplinary collaborations and partnerships both nationally and internationally. She actively engages with researchers, institutions, and funding agencies, fostering productive relationships that drive scientific innovation and discovery forward. Additionally, Gunel’s dedication to mentorship and teaching underscores her commitment to the development of future scientists, as she guides and inspires students and junior researchers in their academic and research pursuits.

Publications:

Investigation of structural and optical properties of zirconia dioxide nanoparticles by radiation and thermal methods

Authors: GT Imanova, TN Agayev, SH Jabarov

Citations: 40

Year: 2021

Gamma rays mediated water splitting on nano-ZrO2 surface: Kinetics of molecular hydrogen formation

Authors: I Ali, GT Imanova, AA Garibov, TN Agayev, SH Jabarov, ASA Almalki

Citations: 39

Year: 2021

Role of the radiations in water splitting for hydrogen generation

Authors: I Ali, GT Imanova, XY Mbianda, OML Alharbi

Citations: 35

Year: 2022

KINETICS OF RADIATION-HETEROGENEOUS AND CATALYTIC PROCESSES OF WATER IN THE PRESENCE OF ZIRCONIA NANOPARTICLES

Authors: GT Imanova

Citations: 31

Year: 2020

Radiation-thermocatalytic and thermocatalytic properties of n-ZrO2-n-SiO2 systems in the process of obtaining hydrogen from water at different temperatures

Authors: GT Imanova, TN Agayev, AA Garibov, SZ Melikova, SH Jabarov

Citations: 23

Year: 2021

Temperature self-regulating flat electric heaters based on MWCNTs-modified polymers

Authors: I Ali, TS AlGarni, A Shchegolkov, A Shchegolkov, SH Jang, E Galunin

Citations: 22

Year: 2021

Kinetics of Formation of Molecular Hydrogen during the Radiolysis of Hexane and a Mixture of C6H14–H2O on a Surface of ZrO2 Nanoparticles

Authors: GT Imanova, TN Agayev, SZ Musaeva

Citations: 21

Year: 2021

Gamma rays mediated hydrogen generation by water decomposition on nano-ZrO2 surface

Authors: G Imanova

Citations: 20

Year: 2021

Observation the initial radiation to the surface of mixed nano catalyst on oxidation processes

Authors: SH Hasanov, GT Imanova

Citations: 17

Year: 2020