Dr. Gulnur Kalimuldina had her Ph.D. from the Tokyo Institute of Technology in Japan.
Her research interests are:
- Energy harvesting materials (mechanical energy by nanogenerators)
- Energy storage materials (lithium-ion batteries, lithium batteries, 3D lithium-ion batteries, 3D printed batteries, low-temperature batteries)
- Synthesis of 2D materials
- Development of stress and strain sensors, tactile sensor materials
- Polymer and nanostructured material synthesis and characterizations
- Self-charging systems
- Bio-derived conductive materials
Research projects
– PI “Self-charging rechargeable lithium-ion battery” 2020-2022 – NU grant
– PI “Development of wearable self-charging power unit” 2020-2022 – MES Young Researchers grant
– PI “Mechanical energy harvesting by triboelectric nanogenerator” – NU Social Policy Grant
– Co-supervisor “Three-dimensional all solid state rechargeable batteries” 2020-2022 – CRP NU grant
– Co-PI “New materials and devices for defense and aerospace applications” 2021-2023 – Ministry of Defense and Aerospace Industry of RK – Future Economics
Publications
1. N. Issatayev, G. Kalimuldina*, A. Nurpeissova, Z. Bakenov, Biomass-Derived Porous Carbon from Agar as an Anode Material for Lithium-Ion Batteries, Nanomaterials 12 (2022) 22.
2. X. Cui, C. Zhang, S. Araby, R. Cai, G. Kalimuldina, Z. Yang, Q. Meng, Multifunctional, flexible and mechanically resilient porous polyurea/graphene composite film, J. Industrial and Eng. Chem. 105 (2022) 549-562.
3. Y. Nurmakanov, G. Kalimuldina*, G. Nauryzbayev, D. Adair, Z. Bakenov, Structural and Chemical Modifications Towards High-Performance of Triboelectric Nanogenerators, Nanoscale Research Lett. 16 (2021) 1-27.
4. H. Han, Yanli Song, Y. Zhang, G. Kalimuldina, Z. Bakenov, NiCo2S4 Nanocrystals on Nitrogen-Doped Carbon Nanotubes as High-Performance Anode for Lithium-Ion Batteries, Nanoscale Research Lett., 16 (2021) 1-8.
5. N. Issatayev, A. Nurpeissova, G. Kalimuldina, Z. Bakenov, Three-dimensional foam-type current collectors for rechargeable batteries: A short review, J. Power Sources Adv., 10 (2021).
6. Nurmakanov Y.Y., Kalimuldina G.S., Kruchinin R.P., Wearable textile PDMS-PPy/Nylon fiber-based triboelectric nanogenerator, “Доклады НАНРК”, (2021).
7. G. Kalimuldina*, A. Nurpeissova, A. Adylkhanova, N. Issatayev, D. Adair, Z. Bakenov, 3D Hierarchical Nanocrystalline CuS Cathode for Lithium Batteries, Materials, 2021.
8. G. Kalimuldina, I. Taniguchi, Sulfur-rich CuS1+x cathode for lithium batteries, Materials Letters, 282 (2021)128705.
9. W. Qiu, J. Li, Y. Zhang, G. Kalimuldina, Z. Bakenov, Carbon nanotubes assembled on porous TiO2 matrix doped with Co3O4 as sulfur host for lithium–sulfur batteries, Nanotechnology, 32 (2021) 075403.
10. T. Kenzhekhanov, D. Abduvali, G. Kalimuldina, D. Adair, Investigating the Feasibility of Energy Harvesting using Material Work Functions, Mater. Today: proceedings, 2021.
11. N. Turdakyn, A. Medeubayev, I.Abay, D. Adair, G. Kalimuldina*, Preparation of a Piezoelectric PVDF Sensor via Electrospinning, Mater. Today: proceedings, 2021.
12. A. Nurpeissova, A. Mukanova, G. Kalimuldina, N. Umirov, S.-S. Kim, Z. Bakenov, Onion-Structured Si Anode Constructed with Coating by Li4Ti5O12 and Cyclized-Polyacrylonitrile for Lithium-Ion Batteries, Nanomaterials, 10 (2020) 1995.
13. G. Kalimuldina, A.Adylkhanova, A. Nurpeissova, D. Adair, Z. Bakenov, Morphology and Dimension Variations of Copper Sulfide for High Performance Electrode in Rechargeable Batteries: a Review Paper, ACS Applied Energy Materials, 3, 12 (2020) 11480.
14. G. Kalimuldina*, N. Turdakyn, I. Abay, A. Medeubayev, A. Nurpeissova, D. Adair, Z. Bakenov, A Review of Piezoelectric PVDF film by Electrospinning and its Applications, Sensors, 2020.
15. A.Adylkhanova, A. Nurpeissova, D. Adair, Z. Bakenov, I. Taniguchi, G. Kalimuldina*, Facile Synthesis of Binder-Free Three-Dimensional CuxS Nanoflowers for Lithium Batteries, Frontiers in Energy Research, 2020.
16. G.Chen, J. Li, N. Liu, Y. Zhao, J. Tao, G. Kalimuldina, Z. Bakenov, Y. Zhang, Synthesis of nitrogen-doped oxygen-deficient TiO2-x/reduced graphene oxide/sulfur microspheres via spray drying process for lithium-sulfur batteries, Electrochim. Acta, 2019.
17. G. Kalimuldina, I. Taniguchi, Electrochemical characterization of non-stoichiometric Cu2Sx cathode for lithium batteries Journal of Solid State Electrochemistry, J. Solid State Electrochemistry, (2017) 1-7 DOI: 10.1007/S10008-017-3625-0.
18. G. Kalimuldina, I. Taniguchi, Electrochemical properties of stoichiometric CuS coated on carbon fiber paper and Cu foil current collectors as cathode material for lithium batteries, J. Mater. Chem. A, 5 (2017) DOI: 10.1039/c7ta00614d
19. G. Kalimuldina, I. Taniguchi, High performance stoichiometric Cu2S cathode on carbon fiber paper current collector for lithium batteries, Electrochim. Acta, 224 (2017) 329-336.
20. G. Kalimuldina, I. Taniguchi, Synthesis and electrochemical characterization of stoichiometric Cu2S as cathode material with high rate capability for rechargeable lithium batteries, J. Power Sources, 331 (2016) 258-266.
21. H. E. Emara-Shabaik, G. Kalimuldina, and S. Al-Zubaidy, Regional energy integration-a system modelling approach, J. Clean Energy Technol., 1 (2013).