Email this article 
Application of various influences to obtain isolated or oriented nanoparticles
- Authors: Doludenko I.M.1,2, Khairetdinova D.R.1,3, Zagorsky D.L.1, Rizvanova A.1,3, Muslimov A.E.1, Kanevsky V.M.1, Panina L.V.3
-
Affiliations:
- Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences
- National Research University “Higher School of Economics”
- National University of Science and Technology “MISIS”
- Issue: Vol 87, No 3 (2023)
- Pages: 321-327
- Section: Articles
- URL: https://journal-vniispk.ru/0367-6765/article/view/135290
- DOI: https://doi.org/10.31857/S0367676522700569
- EDN: https://elibrary.ru/HEVEYH
- ID: 135290
Cite item
Open Access
Access granted
Subscription Access
Abstract
Heterostructural nanowires with alternating copper and nickel layers were obtained by matrix synthesis, then were cut into cylindrical magnetic nanoparticles of calibrated sizes. For their use in medicine, the tasks of their separation (overcoming agglomeration) and spatial orientation for targeted drug delivery and hyperthermia, respectively, were solved.
About the authors
I. M. Doludenko
Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences; National Research University “Higher School of Economics”
Author for correspondence.
Email: doludenko.i@yandex.ru
Russia, 119333, Moscow; Russia, 101000, Moscow
D. R. Khairetdinova
Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences; National University of Science and Technology “MISIS”
Email: doludenko.i@yandex.ru
Russia, 119333, Moscow; Russia, 119049, Moscow
D. L. Zagorsky
Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences
Email: doludenko.i@yandex.ru
Russia, 119333, Moscow
A. Rizvanova
Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences; National University of Science and Technology “MISIS”
Email: doludenko.i@yandex.ru
Russia, 119333, Moscow; Russia, 119049, Moscow
A. E. Muslimov
Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences
Email: doludenko.i@yandex.ru
Russia, 119333, Moscow
V. M. Kanevsky
Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences
Email: doludenko.i@yandex.ru
Russia, 119333, Moscow
L. V. Panina
National University of Science and Technology “MISIS”
Email: doludenko.i@yandex.ru
Russia, 119049, Moscow
References
- Chakavarti S.K., Vetter J. // Nucl. Instrum. Meth. Phys. Res. B. 1991. V. 62. No. 1. P. 109.
- Martin S. // Science. 1994. V. 268. No. 5193. P. 1961.
- Vazquez M. Magnetic nano- and microwires: design, synthesis, properties and applications. Elsevier: Woodhead Publishing, 2015. 815 p.
- Lupu N. Electrodeposited nanowires and their applications. Croatia: InTech, 2010. 236 p.
- Oleinikov V.A., Zagorski D.L., Bedin S.A. et al. // Radiat. Meas. 2008. V. 43. Art. No. S635.
- Панов Д.В., Бычков В.Ю., Тюленин Ю.П. и др. // Поверхность. Рентген., cинхротрон., нейтрон. иссл. 2021. № 12. С. 12; Panov D.V., Bichkov V. Yu., Tulenin Yu.P. et al. // J. Surf. Inv. X-ray Synchrotron Neutron Tech. 2022. V. 15. No. 6. P. 1264.
- Fert A., Piraux L. // JMMM. 1999. V. 200. No. 1–3. P. 338.
- Гуляев Ю.В., Чигарев С.Г., Панас А.И. и др. // ПЖТФ. 2019. Т. 45. № 6. С. 27. Gulyaev Yu.V., Chigarev S.G., Panas A.I. et al. // Tech. Phys. Lett. 2019. V. 45. No. 3. P. 271.
- Kumar C.S., Mohammad F. // Adv. Drug Deliv. Rev. 2011. V. 63. No. 9. P. 789.
- Ortega D., Pankhurst Q.A. Magnetic hyperthermia, in nanoscience. V. 1. Nanostructures through chemistry. Cambridge: Royal Society of Chemistry, 2013. P. 60.
- Alonso J., Khurshid H., Sankar V. et al. // J. Appl. Phys. 2015. V. 117. No. 15. Art. No. 17D113.
- Choi D.S., Park J., Kim S. et al. // J. Nanosci. Nanotechnol. 2008. V. 8. No. 3. P. 2323.
- Nana A.B.A., Marimuthu T., Kondiah P.P.D. et al. // Cancers. 2019. V. 11. No. 12. Art. No. 1956.
- Chen Y., Harpel A., Stadler B.J.H. // AIP Advances. 2022. V. 12. No. 3. Art. No. 035007.
- Moreno J.A., Bran C., Vazquez M., Kosel J. // IEEE Trans. Magn. 2021. V. 57. No. 4. Art. No. 800317.
- Ефремова М.В., Мажуга А.Г., Головин Ю.И., Клячко Н.Л. // Природа. 2016. № 7. С. 3.
- Долуденко И.М., Михеев А.В., Бурмистров И.А. и др. // ЖТФ. 2020. Т. 90. № 9. С. 1435; Doludenko I.M., Mikheev A.V., Burmistrov I.A. et al. // Tech. Phys. 2020. V. 65. No. 9. P. 1377.
- Жигалина О.М., Долуденко И.М., Хмеленин Д.Н и др. // Кристаллография. 2018. Т. 63. № 3. С. 455; Zhigalina O.M., Doludenko I.M., Khmelenin D.N. et al. // Crystallography Rep. 2018. V. 63. No. 3. P. 480.
- Долуденко И.М., Загорский Д.Л., Трушина Д.Б., Бурмистров И.А. Способ получения наностержней никеля с регулируемым аспектным отношением. Пат. РФ № 2724264, кл. C25C 1/08, B82B 3/00. 2020.
- Yao H., Xie L., Cheng Y. et al. // Mater. Des. 2017. V. 123. No. 5. P. 165.
Supplementary files
