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Micro, Nano, and Molecular Systems Conference Paper 2019

A Magnetic Actuation System for the Active Microrheology in Soft Biomaterials

Thumb ticker sm jeong
Micro, Nano, and Molecular Systems
Moon-Kwang Jeong
Thumb ticker sm thumb eunjin choi
Micro, Nano, and Molecular Systems
EunJin Choi
  • Doctoral Researcher
Thumb ticker sm palagi stefano
Micro, Nano, and Molecular Systems
Stefano Palagi
PostDoc, now Center for Micro-BioRobotics@SSSA (Pisa, Italy) of Istituto Italiano di Tecnologia, Italy.
Thumb ticker sm peer fischer portrait
Micro, Nano, and Molecular Systems
Peer Fischer
Professor
Thumb ticker sm qiu tian
Micro, Nano, and Molecular Systems
Tian Qiu
Univ. of Stuttgart CyberValley Group Leader & MPI Senior Research Scientist
Thumb ticker sm dandan li
Micro, Nano, and Molecular Systems
Dandan Li
Marss qiu

Microrheology is a key technique to characterize soft materials at small scales. The microprobe is wirelessly actuated and therefore typically only low forces or torques can be applied, which limits the range of the applied strain. Here, we report a new magnetic actuation system for microrheology consisting of an array of rotating permanent magnets, which achieves a rotating magnetic field with a spatially homogeneous high field strength of ~100 mT in a working volume of ~20×20×20 mm3. Compared to a traditional electromagnetic coil system, the permanent magnet assembly is portable and does not require cooling, and it exerts a large magnetic torque on the microprobe that is an order of magnitude higher than previous setups. Experimental results demonstrate that the measurement range of the soft gels’ elasticity covers at least five orders of magnitude. With the large actuation torque, it is also possible to study the fracture mechanics of soft biomaterials at small scales.

Author(s): Jeong, M. and Choi, E. and Li., D. and Palagi, S. and Fischer, P. and Qiu, T.
Year: 2019
Month: July
Day: 1
Bibtex Type: Conference Paper (conference)
Event Name: 4th IEEE International Conference on Manipulation, Automation and Robotics at Small Scales (MARSS)
Electronic Archiving: grant_archive

BibTex 

@conference{JeongM2019,
  title = {A Magnetic Actuation System for the  Active Microrheology in Soft Biomaterials },
  abstract = {Microrheology is a key technique to characterize soft materials at small scales. The microprobe is wirelessly actuated and therefore typically only low forces or torques can be applied, which limits the range of the applied strain. Here, we report a new magnetic actuation system for microrheology consisting of an array of rotating permanent magnets, which achieves a rotating magnetic field with a spatially homogeneous high field strength of ~100 mT in a working volume of ~20×20×20 mm3. Compared to a traditional electromagnetic coil system, the permanent magnet assembly is portable and does not require cooling, and it exerts a large magnetic torque on the microprobe that is an order of magnitude higher than previous setups. Experimental results demonstrate that the measurement 
  range of the soft gels’ elasticity covers at least five orders of magnitude. With the large actuation torque, it is also possible to study the fracture mechanics of soft biomaterials at small scales. },
  month = jul,
  year = {2019},
  slug = {jeongm2019},
  author = {Jeong, M. and Choi, E. and Li., D. and Palagi, S. and Fischer, P. and Qiu, T.},
  month_numeric = {7}
}