Prof. Darya Alontseva | Robotics | Best Researcher Award
Prof. Darya Alontseva, D. Serikbayev East Kazakhstan Technical University, Kazakhstan
Prof. darya alontseva is a tenured professor at the School of Digital Technologies and Artificial Intelligence at D. Serikbayev East Kazakhstan Technical University (ektu), Kazakhstan. A distinguished physicist and material scientist, she holds a Doctor of Sciences in Physics and Mathematics, awarded in 2013, and specializes in plasma surface interaction, material science, and advanced materials. With over three decades of teaching, research, and leadership experience, Prof. alontseva is an accomplished academic with expertise in material characterization, electron microscopy, and computer simulation. She actively collaborates on international research projects, advancing knowledge in nanotechnology and resource-efficient energy applications.
PROFILE
Educational Details
Doctor of Sciences in Physics and Mathematics (2013)
Altai State Technical University, Russia
Thesis: “Structural phase state and properties of Ni-Cr, Co-Cr, Fe-Ni-Cr based alloys as a result of concentrated energy fluxes impact.”
Ph.D. in Physics and Mathematics (2002)
S. Amanzholov East Kazakhstan State University (Ektu), Kazakhstan
Thesis: “Cellular precipitation of phases in strongly-deformed austenite aging alloys.”
Master of Science in Physics (1997)
East Kazakhstan State University, Kazakhstan
Diploma with Distinction
Bachelor of Physics and Mathematics (1989)
Ust-Kamenogorsk Pedagogical Institute, Kazakhstan
Diploma with Distinction
Professional Experience
Academic Employment
Professor, School of Digital Technologies and Artificial Intelligence, D. Serikbayev ektu (2020–Present)
Professor, Department of Instrument Engineering and Process Automation, ektu (2013–2020)
Associate Professor, Department of Instrument Engineering and Process Automation, ektu (2008–2013)
Senior Teacher, Department of Experimental Physics and Instrument Engineering, ektu (2000–2008)
Teacher, Physics and Mathematics Lyceum, Ust-Kamenogorsk, Kazakhstan (1993–2000)
Teacher, High School No. 17, Ust-Kamenogorsk, Kazakhstan (1989–1993)
International Academic Experience
Visiting Researcher, Brandenburg University of Technology (BTU), Germany (2023)
Collaboration on pulse-plasma treatment for gas-thermal coatings.
Invited Lecturer, Óbuda University, Hungary (2019)
Lectures on “Innovation Worldwide” under Erasmus+ Mobility Programme.
DAAD Summer School Lecturer, Kazakhstan (2017)
Lectures on energy-efficient methods for surface treatment and materials analysis.
Research Interests
Plasma Surface Interaction
Physics of Condensed State
Advanced Materials and Nanotechnology
Automation and Control Systems
Material Science and Resource-efficient Engineering
Research Expertise
Material Characterization
Mechanical Properties Analysis
Electron Microscopy & X-ray Diffraction
Computer Simulation of Material Behavior
Teaching Activities
Over the past three years, my teaching activities have centered on doctoral-level disciplines, including lectures and practical classes in “Research Methods” (in English), supervising doctoral theses, research work, and professional practice. I have also supervised master’s theses and delivered undergraduate lectures on “Research Organization and Planning” (in English). Additionally, I developed and implemented a MOOC on the OpenEdX platform titled IT_IS: ROP_01 Research Organization and Planning for undergraduates, enhancing accessibility to quality education. Under my supervision, six doctoral students have successfully defended their theses, earning Ph.D. degrees in “Applied Physics” (4) and “Automation and Control” (2). Currently, I am supervising five doctoral students in “Automation and Control” and serving as a scientific advisor to two postdoctoral researchers funded by the Republic of Kazakhstan: Bagdat Azamatov (Grant AP13268737) for developing additive manufacturing technologies for biocompatible implants, and Alyona Russakova (Grant AP09561959) for studying alloy substructure parameters under external influences.
Development of technology of microplasma spraying for the application of biocompatible coatings in the manufacture of medical implants
Authors: D. Alontseva, Y. Borisov, S. Voinarovych, O. Kyslytsia, T. Kolesnikova, et al.
Journal: Przeglad Elektrotechniczny, 94 (7), 94–97
Year: 2018
Citations: 11
Modification of Ni-based plasma detonation coatings by a low-energy DC E-Beam
Authors: D. Alontseva, A. Krasavin, A. Pogrebnjak, A. Russakova
Journal: Acta Physica Polonica A, 123 (5), 867–870
Year: 2013
Citations: 11
Pitting corrosion behaviour of austenitic stainless-steel coated on Ti6Al4V alloy in chloride solutions
Authors: R. Yamanoglu, E. Fazakas, F. Ahnia, D. Alontseva, F. Khoshnaw
Journal: Advances in Materials Science, 21 (2), 5–15
Year: 2021
Citations: 10
Plasma-assisted automated precision deposition of powder coating multifunctional systems
Authors: D. Alontseva, A. Krasavin, N. Prokhorenkova, T. Kolesnikova
Journal: Acta Physica Polonica A, 132 (2), 233–235
Year: 2017
Citations: 10
Effect of irradiation with DC plasma jet on the structure phase compositions and properties of powder Ni and Co–based coatings
Authors: D. Alontseva, A. Krasavin, A. Russakova, T. Kolesnikova, G. Bektasova
Journal: Materials Science, 22 (2), 238–242
Year: 2016
Citations: 10
Formation of micro-and nanostructured phases in coatings on base Ni-Cr and Co-Cr, their structure and properties
Authors: D.L. Alontseva, S.N. Bratushko, V.N. Rogoz, N.V. Prokhorenkova, A.V. Pshik
Year: 2011
Citations: 10
Development of 3D scanning system for robotic plasma processing of medical products with complex geometries
Authors: D.L. Alontseva, E. Ghassemieh, A.L. Krasavin, A.T. Kadyroldina
Journal: Journal of Electronic Science and Technology, 18 (3), 100057
Year: 2020
Citations: 9
Automation of industrial sites with mechatronic systems
Authors: D.L. Alontseva, A.L. Krasavin, A.V. Russakova, A.T. Kadyroldina
Journal: International Journal of Electrical and Electronic Engineering
Year: 2018
Citations: 9
Conclusion
Prof. Darya Alontseva’s remarkable educational background, extensive research experience, and international collaborations establish her as an outstanding candidate for the Research for Best Researcher Award. Her work in plasma surface interactions, material characterization, and nanotechnology has significantly contributed to the advancement of material science and applied physics, aligning seamlessly with the award’s criteria.