Coordinator of Information Support and Education

Head of Laboratory

Doctor of Science (Physics)

Professor of RAS

 

Тel.: +7 (347) 223-00-15

E-mail: julia.a.baimova@gmail.com

 

ORCID: 0000-0002-5953-1186

ResearcherID: P-2046-2014

ScopusID: 36191903300

e-library: Баимова Юлия Айдаровна

ResearchGate: Julia Baimova

Publons: Julia A. Baimova

wiki: Баимова Юлия Айдаровна

Working experience - 17 years.

 

Specialist in the field of physical and mechanical properties of carbon materials.

Assosiate Editor of Journal of Micromechanics and Molecular Physics, Electrochemical Materials and Technologie, Materials. Editor of the scientific journal Letters on Materials.

Member of the Russian National Committee of Theoretical and Applied Mechanics (elected 2019).

The author of over 150 published works, 1 monograph, 1 textbooks for students.

Area of scientific interests:

Plastic deformation, crystal structure defects, graphene, elastic strain engineering, molecular dynamics, nanomaterials, bulk carbon materials, diamond-like structures, mechanical properties, auxetics.

 

Main scientific results:

• A wide range of quasi-dimensional and three-dimensional nanomaterials based on graphene (graphene, graphene with ripples and defects, hydrogenated graphene, graphene-based heterostructures, diamond-like structures, fullerites, carbon nanotubes and crumpled graphene) was investigated: their stable configurations were found by the molecular dynamics method, their structure and properties under the action of temperature, elastic and inelastic deformation were studied;
• qualitatively new carbon structures, their physical and mechanical properties were investigated and prospects for their application in various fields, for example, in electronics, for creation of protective coatings, in hydrogen energy, etc. were determined. etc.;
• approaches to controlling the properties of graphene and three-dimensional carbon materials of different morphology have been developed, which can be used in predicting the deformation behaviour of carbon nanomaterials, in studying the influence of structure on deformation behaviour and mechanical properties, in obtaining new carbon structures and materials based on them, e.g. composites.

 

Awards: 

- Diploma of the Russian academy of Sciences (2015);

- Grattitude of the Head of the Respublic of Bashkortostan (2021);

- Certificate of Honor of the Ministry of Science and Higher Education of Russian Federation (2021);

- Certificate of Honour of the Republic of Bashkortostan (2024);

- Jubilee Medal "300 Years of the Russian Academy of Sciences" (2024);

- ICCES Outstanding Young Researcher Award (2024);

- Award "Svet nauki" in the nomination Digital and Green Chemistry and Energy (2024).

 

2008 – 2015 - Reseacher, Institute for Metals Superplasticity Problems of RAS

2012 – 2014 - Research associate, Nanyang Technological University, Singapore

2015 – 2017 - Senior researcher, Institute of Metal Physics, Ural Division of RAS

2018 – 2021 - Leading researcher, Institute for Metals Superplasticity Problems, of RAS

2017 – present - Professor, Department of Physics and Technology of Nanomaterials, Institute of Physics and Technology, Ufa University of Science and technology

2021 – present - Head of Laboratory, Institute for Metals Superplasticity Problems, of RAS

 

 

1. J.A. Baimova, S.V. Dmitriev, K. Zhou A.V. Savin. Unidirectional ripples in strained graphene nanoribbons with clamped edges at zero and finite temperatures. Phys. Rev. B. 2012. V. 86. N 3. P. 035427.

2. J.A. Baimova, B. Liu, S.V. Dmitriev, N. Srikanth, K. Zhou. Mechanical properties of bulk carbon nanostructures: effect of loading and temperature. Phys. Chem. Chem. Phys. 2014. V. 16. P. 19505-19513.

3. L.R. Safina, J.A. Baimova, K.A. Krylova.  Molecular dynamics study of the mechanical properties and deformation behavior of graphene/metal composites. Materials Today Physics. P. 100851.

4. L.R. Safina, K.A. Krylova, R.T. Murzaev, S.A. Shcherbinin, J.A. Baimova. Graphene/Ni composite coating for enhanced strength of Ni surface. Surfaces and Interfaces. 2024. V. 53. P. 105011.

5. P.V. Polyakova, R.T. Murzaev, J. A. Baimova. Mechanical properties of diamane: orientation dependence of strength and fracture strain. Applied Surface Science. 2025. V.  681. P. 161441.