Cite the Following Article
Recent progress in magnetic applications for micro- and nanorobots
Ke Xu, Shuang Xu and Fanan Wei
Beilstein J. Nanotechnol. 2021, 12, 744–755.
https://doi.org/10.3762/bjnano.12.58
How to Cite
Xu, K.; Xu, S.; Wei, F. Beilstein J. Nanotechnol. 2021, 12, 744–755. doi:10.3762/bjnano.12.58
Download Citation
Citation data can be downloaded as file using the "Download" button or used for copy/paste from the text window
below.
Citation data in RIS format can be imported by all major citation management software, including EndNote,
ProCite, RefWorks, and Zotero.
Presentation Graphic
| Picture with graphical abstract, title and authors for social media postings and presentations. | ||
| Format: PNG | Size: 11.6 MB | Download |
Citations to This Article
Up to 20 of the most recent references are displayed here.
Scholarly Works
- Gao, P.; Duan, Z.; Xu, G.; Gong, Q.; Wang, J.; Luo, K.; Chen, J. Harnessing and Mimicking Bacterial Features to Combat Cancer: From Living Entities to Artificial Mimicking Systems. Advanced materials (Deerfield Beach, Fla.) 2024, 36, e2405075. doi:10.1002/adma.202405075
- Dang, D.; Xu, K. Physical Sensor for Electronic Skin Based on Nanomaterials: A Review. Integrated Ferroelectrics 2024, 240, 544–572. doi:10.1080/10584587.2024.2324683
- Ogochukwu, O. O.; Fabiyi, M. B.; Aworunse, O. S.; Oyewole, O. A.; Isibor, P. O. Nanoparticle Properties and Characterization. Environmental Nanotoxicology; Springer Nature Switzerland, 2024; pp 23–40. doi:10.1007/978-3-031-54154-4_2
- Elnaggar, A.; Kang, S.; Tian, M.; Han, B.; Keshavarz, M. State of the Art in Actuation of Micro/Nanorobots for Biomedical Applications. Small Science 2024, 4. doi:10.1002/smsc.202300211
- Singh, M. P.; Rathod, P. B.; Kalel, R. A. Toxic gas detection by nanotechnology-based sensors. Nanotechnology-based Sensors for Detection of Environmental Pollution; Elsevier, 2024; pp 277–316. doi:10.1016/b978-0-443-14118-8.00015-2
- Ghorbanighoshchi, S.; Akdogan, N. G.; Akdogan, O. Development of next-generation diamagnetic milli-swimmers. MRS Communications 2023, 13, 1381–1387. doi:10.1557/s43579-023-00471-x
- Chesnitskiy, A. V.; Gayduk, A. E.; Seleznev, V. A.; Prinz, V. Y. Bio-Inspired Micro- and Nanorobotics Driven by Magnetic Field. Materials (Basel, Switzerland) 2022, 15, 7781. doi:10.3390/ma15217781
- Lun, D.; Xu, K. Recent Progress in Gas Sensor Based on Nanomaterials. Micromachines 2022, 13, 919. doi:10.3390/mi13060919
- Zhang, Y.; Zhao, H.; Yu, H.; Qin, Q.; Wang, J. Tensile behaviors of filaments with misfit of chirality. Acta Mechanica Sinica 2022, 38. doi:10.1007/s10409-022-21604-x
- Yang, X.; Lan, L.; Li, L.; Liu, X.; Naumov, P.; Zhang, H. Remote and precise control over morphology and motion of organic crystals by using magnetic field. Nature communications 2022, 13, 2322. doi:10.1038/s41467-022-29959-1
- Rodriguez-Sotelo, D.; Rodriguez-Licea, M. A.; Araujo-Vargas, I.; Prado-Olivarez, J.; Barranco-Gutiérrez, A.-I.; Perez-Pinal, F. J. Power Losses Models for Magnetic Cores: A Review. Micromachines 2022, 13, 418. doi:10.3390/mi13030418
- Suhail, M.; Khan, A.; Rahim, M. A.; Naeem, A.; Fahad, M.; Badshah, S. F.; Jabar, A.; Janakiraman, A. K. Micro and nanorobot-based drug delivery: an overview. Journal of drug targeting 2021, 30, 1–10. doi:10.1080/1061186x.2021.1999962
