Add to ORKGThe use of magnetic nanowires is demonstrated as a method for the application of force to mammalian cells. Magnetic separations were carried out on populations of NIH-3T3 mouse fibroblast cells using ferromagnetic Ni wires 350 nm in diameter and 35 μm long. Separation purities in excess of 90% and yields of 49% are obtained. The nanowires are shown to outperform magnetic beads of comparable volume
Single-bath potentiostatic-pulsed electrodeposition enables the synthesis of bicomponent (i.e., gold...
Live mammalian cells are captured and manipulated in magneto-fluidic traps created in a suspension o...
University of Minnesota Ph.D. dissertation. July 2018. Major: Chemical Engineering. Advisor: Bethani...
Ferromagnetic nanowires are shown to perform both high yield and high purity single-step cell separa...
An approach is described for controlling the spatial organization of mammalian cells using ferromagn...
Magnetic particles that can be bound to cells and biomolecules have become an important tool for the...
The phenomenon of contact guidance on thin fibers has been known since the beginning of the 20th cen...
AbstractWe discuss the possibility of a specially designed electro-magnetic template with magnetic n...
21 pages 12 figures ACS Nano 5 (7), 5354-5364 (2011)We report on the uptake, toxicity and degradatio...
Single cells, despite being the base unit of living organisms, possess a high degree of hierarchical...
International audienceWe report on the uptake, toxicity, and degradation of magnetic nanowires by NI...
The manipulation of biological molecules and single cells on a surface is of fundamental importance ...
We present a multiplex method, based on microscopic programmable magnetic traps in zigzag wires patt...
A new strategy for magnetically manipulating and isolating adherent cells with extremely high post-c...
Magnetic nanoparticles are promising new tools for therapeutic applications, such as magnetic nanopa...
Single-bath potentiostatic-pulsed electrodeposition enables the synthesis of bicomponent (i.e., gold...
Live mammalian cells are captured and manipulated in magneto-fluidic traps created in a suspension o...
University of Minnesota Ph.D. dissertation. July 2018. Major: Chemical Engineering. Advisor: Bethani...
Ferromagnetic nanowires are shown to perform both high yield and high purity single-step cell separa...
An approach is described for controlling the spatial organization of mammalian cells using ferromagn...
Magnetic particles that can be bound to cells and biomolecules have become an important tool for the...
The phenomenon of contact guidance on thin fibers has been known since the beginning of the 20th cen...
AbstractWe discuss the possibility of a specially designed electro-magnetic template with magnetic n...
21 pages 12 figures ACS Nano 5 (7), 5354-5364 (2011)We report on the uptake, toxicity and degradatio...
Single cells, despite being the base unit of living organisms, possess a high degree of hierarchical...
International audienceWe report on the uptake, toxicity, and degradation of magnetic nanowires by NI...
The manipulation of biological molecules and single cells on a surface is of fundamental importance ...
We present a multiplex method, based on microscopic programmable magnetic traps in zigzag wires patt...
A new strategy for magnetically manipulating and isolating adherent cells with extremely high post-c...
Magnetic nanoparticles are promising new tools for therapeutic applications, such as magnetic nanopa...
Single-bath potentiostatic-pulsed electrodeposition enables the synthesis of bicomponent (i.e., gold...
Live mammalian cells are captured and manipulated in magneto-fluidic traps created in a suspension o...
University of Minnesota Ph.D. dissertation. July 2018. Major: Chemical Engineering. Advisor: Bethani...