Mr. Nazim Guseinov is a dedicated researcher in nanotechnology with a strong academic background in solid-state physics and extensive professional experience at the National Nanotechnological Laboratory. His expertise lies in electron microscopy, electron spectroscopy, and electron/ion-beam lithography, which he applies to advanced material characterization and nanostructure fabrication. He has made significant contributions to research on carbon nanostructures, thin films, plasmonic nanocomposites, and graphene-based materials, combining both experimental and computational approaches. His work has been widely published in reputable international journals, reflecting consistent productivity and relevance to global scientific progress. Many of his studies address challenges in electronics, renewable energy, and advanced materials, showcasing the practical potential of his research. While his profile could be further strengthened by highlighting patents, leadership roles, and broader international collaborations, his achievements demonstrate a strong record of scientific excellence. Overall, Mr. Guseinov is a valuable contributor to nanoscience and a deserving candidate for recognition.

Professional Profile 

Scopus Profile | ORCID Profile 

Education

Mr. Nazim Guseinov has a strong educational foundation in physics, having completed both his bachelor’s and master’s degrees in solid-state physics at al-Farabi Kazakh National University. His studies provided him with a deep understanding of material properties, electronic structures, and physical phenomena at the atomic and nanoscale levels. This academic background laid the groundwork for his later specialization in nanotechnology, enabling him to combine theoretical knowledge with practical applications. His training emphasized advanced physics concepts, laboratory research, and modern characterization techniques, equipping him with the skills required to explore the behavior of materials at the nanoscale. The progression from undergraduate to postgraduate studies in the same field reflects a consistent dedication to mastering physics as a discipline. His educational journey has directly influenced his research focus, allowing him to bridge fundamental physics with applied nanoscience, and has positioned him well for a long-term career in advanced materials research.

Experience

Mr. Nazim Guseinov has extensive professional experience as a researcher at the National Nanotechnological Laboratory of Open Type in Kazakhstan, where he has been actively engaged since the beginning of his career. His primary responsibilities involve advanced experimental techniques such as electron microscopy and electron spectroscopy for material characterization, as well as electron-beam and ion-beam lithography for fabricating nanostructures. Over the years, he has contributed to the development and study of diverse nanomaterials, including carbon-based structures, thin films, and nanocomposites with potential applications in electronics and energy technologies. His professional role combines fundamental investigations with practical advancements, bridging academic research and applied innovation. By consistently engaging in multidisciplinary projects and co-authoring numerous scientific publications, he has established himself as a reliable and productive member of the scientific community. His long-term commitment to nanotechnology research demonstrates not only expertise in technical skills but also perseverance and dedication to advancing this field.

Research Focus

The core of Mr. Nazim Guseinov’s research lies in nanotechnology, with a particular emphasis on the study and fabrication of carbon nanostructures, thin films, and advanced nanocomposites. He specializes in applying high-resolution techniques such as electron microscopy and electron spectroscopy to investigate structural, electronic, and optical properties of materials at the nanoscale. His work extends to electron-beam and ion-beam lithography, enabling the creation of nanostructures with precision for scientific and industrial applications. He has also contributed to studies on plasmonic nanocomposites, graphene-based systems, and semiconductor materials, showcasing his versatility across multiple branches of nanoscience. His research outputs cover both experimental exploration and computational modeling, reflecting a comprehensive approach to material science. Many of his studies have potential applications in renewable energy, electronics, sensors, and data storage, demonstrating his focus on socially and technologically relevant areas. Overall, his research reflects a balance between advancing fundamental knowledge and exploring innovative practical solutions.

Award and Honor

While specific awards and honors are not listed in detail, Mr. Nazim Guseinov’s academic and research contributions are reflected through his extensive publication record in respected international journals. His involvement in collaborative projects with fellow scientists and contributions to multidisciplinary studies highlight his recognition within the scientific community. The consistent appearance of his work in high-impact publications such as Micromachines, Nanomaterials, and the Journal of Non-Crystalline Solids serves as an acknowledgment of the quality and significance of his research. Furthermore, his long-term role at a national nanotechnology research laboratory indicates institutional trust and recognition of his expertise in advanced materials research. Although additional details on individual awards, conference honors, or patents could further strengthen this section, his sustained academic productivity and contributions already reflect a form of professional distinction. Collectively, his achievements position him as a promising and deserving candidate for research recognition and professional honors.

Publication Top Notes

• Electrostatic energy analyzer for nanotechnology applications
  Authors: Guseinov, N.R.; Ilyin, A.M.
  Year: 2021
  Citations: 10

• Experimental investigation of the distribution of energy deposited by FIB in ion-beam lithography
  Authors: Muratov, M.; Myrzabekova, M.; Guseinov, N.; Nemkayeva, R.; Ismailov, D.; Shabelnikova, Y.; Zaitsev, S.
  Year: 2020

• Organic Resist Contrast Determination in Ion Beam Lithography
  Authors: Shabelnikova, Y.L.; Zaitsev, S.I.; Guseinov, N.; Gabdullin, M.; Muratov, M.M.
  Year: 2020

• Percolation conductivity in amorphous carbon films modified with palladium nanoparticles
  Authors: Ryaguzov, A.P.; Nemkayeva, R.R.; Guseinov, N.R.; Assembayeva, A.R.; Zaitsev, S.I.
  Year: 2020

• Photoluminescence quenching of WS₂ nanoflakes upon Ga ion irradiation
  Authors: Bozheyev, F.; Nemkayeva, R.; Guseinov, N.; Kaikanov, M.; Tikhonov, A.
  Year: 2020

• Computer simulation and first principles study of Ga-doped graphene nanostructures
  Authors: Ilyin, A.M.; Guseinov, N.R.; Kuanyshbekov, T.K.; Beall, G.W.; Tulegenova, M.A.
  Year: 2019

• Computer simulation of the effect of structural defects on the effectiveness of graphene’s protective properties
  Authors: Tulegenova, M.; Ilyin, A.; Guseinov, N.; Beall, G.; Kuanyshbekov, T.
  Year: 2019

• Influence of substrate temperature on the formation of titanium carbide film
  Authors: Kaipoldayev, O.E.; Baigarinova, G.A.; Nemkayeva, R.R.; Guseinov, N.R.; Mukhametkarimov, Y.S.; Tauasarov, K.; Prikhodko, O.Y.
  Year: 2019

• Nanodefects on microcrystals of YAG-based phosphors
  Authors: Tulegenova, A.T.; Lisitsyn, V.M.; Abdullin, K.A.; Guseinov, N.R.
  Year: 2019

• Study of the structure of amorphous carbon films modified with silicon oxide
  Authors: Ryaguzov, A.P.; Kudabayeva, M.A.; Nemkayeva, R.R.; Guseinov, N.R.; Myrzabekova, M.M.
  Year: 2019

Conclusion

Mr. Nazim Guseinov has built a strong research portfolio focused on nanotechnology, material science, and advanced electronic applications. His publications span high-impact areas such as electron-beam lithography, graphene-based nanostructures, amorphous carbon films, and photonic/electronic material properties. Collaborating with international teams, he has contributed to both experimental and computational studies that advance the understanding of nanostructured materials and their applications in electronics, sensing, and energy. While many of his works are relatively recent and still accumulating citations, the breadth of topics and consistent productivity highlight his role as an active and promising scientist. His research impact is evident through innovative approaches, interdisciplinary collaborations, and practical applications in nanotechnology, positioning him as a valuable contributor to modern materials science.