Wiley_small methods
Volume8, Issue7
July 19, 2024
2470035
Magnetically Selective Versatile Transport of Microrobotic Carriers (Small Methods 7/2024)
Field-driven transport systems offer the possibility of biofunctionalized carriers for microrobotics, biomedicine, and cell delivery. In article number 2301495, Lim, Kim, and co-workers show how magnetic fields may selectively manipulate and drive microrobotics along a patterned micromagnet. Different-sized magnetic carriers move in multiple directions, including selective rotation and bidirectional movement. Such steering systems can direct the delivery of drugs or cells into artificial microvascular channels.
- Xinghao Hu
- Keonmok Kim
- Abbas Ali
- Hyeonseol Kim
- Yumin Kang
- Jonghwan Yoon
- Sri Ramulu Torati
- Venu Reddy
- Mi-Young Im
- Byeonghwa Lim
- CheolGi Kim
https://onlinelibrary.wiley.com/doi/10.1002/smtd.202470035
Image created by minjeong Kim / Nanosphere
Wiley_small methods
Volume8, Issue7
July 19, 2024
2470035
Magnetically Selective Versatile Transport of Microrobotic Carriers (Small Methods 7/2024)
Field-driven transport systems offer the possibility of biofunctionalized carriers for microrobotics, biomedicine, and cell delivery. In article number 2301495, Lim, Kim, and co-workers show how magnetic fields may selectively manipulate and drive microrobotics along a patterned micromagnet. Different-sized magnetic carriers move in multiple directions, including selective rotation and bidirectional movement. Such steering systems can direct the delivery of drugs or cells into artificial microvascular channels.
https://onlinelibrary.wiley.com/doi/10.1002/smtd.202470035
Image created by minjeong Kim / Nanosphere