Stefanie M. Gravano scite author profile

Carboxylic acid capped -Fe 2 O 3 nanoparticles were prepared by the standard decomposition of Fe(CO) 5 in di-n-octyl ether and oleic acid. Two methods were employed to introduce surface functionality to the nanoparticles. First, a thermally stable, tert-butyldiphenylsilyl-protected hydroxyl group was incorporated into the carboxylic acid surfactant used during the synthesis. Subsequent deprotection and transformation installed a 2-bromopropionyl ester group on the particle surface (the functional-group-interchange method). The resulting nanoparticles were 4.53 nm in average diameter and were characterized with IR spectroscopy, transmission electron microscopy (TEM), selected area electron diffraction, and elemental analysis. Second, a 2-bromopropionyl ester group was installed on the particle surface after synthesis via the exchange of the surface oleic acid with a carboxylic acid containing the desired 2-bromopropionyl ester unit (the ligand-exchange method). The resulting nanoparticles were 4.30 nm in average diameter and were characterized with IR spectroscopy, TEM, and elemental analysis. Monitoring the percentage of bromine incorporated into the nanoparticle sample versus the ligand-exchange reaction time indicated that the number of initiator-containing carboxylic acids that could be exchanged onto the surface was limited, presumably by the steric size of the 2-bromopropionyl ester group. Styrene was then polymerized directly off -Fe 2 O 3 nanoparticles, and this yielded hybrid core-shell structures. The measurements of the magnetic properties of the samples demonstrated that the magnetism of the core -Fe 2 O 3 nanoparticle did not change during the performance of the chemical transformations.

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Poly(4-(aminomethyl)styrene)-b-polystyrene: Synthesis and Unilamellar Vesicle Formation

Gravano

Borden

Werne

et al. 2002

Langmuir

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Hybrid Organic Inorganic Objects

Gravano

Patten

2007

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