Advances in Bio-Magnetic Interfacing Concepts Derived From Polymer-Magnetic Particle Complexes

Abstract

This report describes the physical characterization of cobalt nanoparticles formed using (1) polysiloxane copolymer micelles and (2) poly(styrene-b-4-vinylphenoxyphtalonitrile) copolymer solutions. Formation of silica coatings around the cobalt nanoparticles is shown to protect the cobalt from oxidation in aerobic environments. Native particles have a narrow particle size distribution while pyrolyzed particles appear to comprise a bimodal or broader distribution of sizes. Pyrolysis of the native sample increases the cobalt specific saturation magnetization. Native cobalt nanoparticles formed in poly(styrene-b-4-vinylphenoxyphthalonitrile) copolymer solutions are weakly crystalline while their pyrolyzed counterparts have a high degree of crystallinity. Pyrolysis increases the cobalt specific saturation magnetization from approximately 80 emu/g Co to values close to that observed for bulk cobalt (160 emu/g Co). The formation of a graphitic coating around the cobalt nanoparticles upon pyrolysis appears to prevent oxidation of the cobalt in air.

Document Details

Document Type

Technical Report

Publication Date

Nov 01, 2004

Accession Number

ADA430550

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