Forced- and Self-Rotation of Magnetic Nanorods Assembly at the Cell Membrane: A Biomagnetic Torsion Pendulum

Claire Wilhelm (MSC); Fran\c{c}ois Mazuel (MSC); Jean-Claude Bacri (MSC); Myriam Reffay (MSC); Riccardo Di Corato (MSC); Samuel Mathieu (MSC); Teresa Pellegrino (IIT); Thierry Meylheuc (MICALIS)

arxiv: 1807.08994 · v1 · pith:3D2EZK72new · submitted 2018-07-24 · ⚛️ physics.bio-ph · cond-mat.soft

Forced- and Self-Rotation of Magnetic Nanorods Assembly at the Cell Membrane: A Biomagnetic Torsion Pendulum

Fran\c{c}ois Mazuel (MSC) , Samuel Mathieu (MSC) , Riccardo Di Corato (MSC) , Jean-Claude Bacri (MSC) , Thierry Meylheuc (MICALIS) , Teresa Pellegrino (IIT) , Myriam Reffay (MSC) , Claire Wilhelm (MSC) This is my paper

classification ⚛️ physics.bio-ph cond-mat.soft

keywords magneticcellnanorodsfieldmembranemembranespendulumrotating

0 comments

read the original abstract

In order to give insights into how anisotropic nano-objects interact with living cell membranes, and possibly self-assemble, we designed magnetic nanorods with average size around 100 nm x 1$\mu$m by assembling iron oxide nanocubes within a polymeric matrix under a magnetic field. We then explored the nano-bio interface at the cell membrane under the influence of a rotating magnetic field. We observed a complex structuration of the nanorods intertwined with the membranes. Unexpectedly, after a magnetic rotating stimulation, the resulting macrorods were able to rotate freely for multiple rotations, revealing the creation of a bio-magnetic torsion pendulum.

This paper has not been read by Pith yet.

Forced- and Self-Rotation of Magnetic Nanorods Assembly at the Cell Membrane: A Biomagnetic Torsion Pendulum

discussion (0)