Mariane C. Schnitzler scite author profile

This work reports the incorporation of ferrocene into a porous silica glass under ambient temperature and atmosphere. After or during the ferrocene incorporation, the spontaneous formation of ferricinium ions was observed by electron paramagnetic resonance (EPR), UV-visible, X-ray absorption near-edge structure (XANES), and 57Fe Mössbauer measurements. It was shown that the oxidation of ferrocene molecules to ferricinium ions was promoted by air and that the Si-O- groups on the surface of the pores act as counteranions. Pyrolysis of the porous glass/ferricinium material under argon atmosphere and variable temperature yields different glass/carbon nanocomposites, which were subsequently treated with an HF solution in order to remove the glassy fraction. The resulting insoluble carbon materials were characterized by transmission electron microscopy (TEM), Raman, and EPR spectroscopy and consisted of amorphous carbon when the pyrolysis was carried out at 900 or 1000 degrees C and of a mixture of carbon nanotubes and carbonaceous materials at a pyrolysis temperature of 1100 degrees C. When the pyrolysis was conducted under air, the incorporated ferricinium forms alpha-Fe2O3, and the resulting material is a transparent and highly homogeneous glass/iron oxide nanocomposite.

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Evaluation of multiwalled carbon nanotubes toxicity in two fish species

Cimbaluk

Ramsdorf

Perussolo

et al. 2018

Ecotoxicology and Environmental Safety

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Mariane C. Schnitzler

One-step route to iron oxide-filled carbon nanotubes and bucky-onions based on the pyrolysis of organometallic precursors

Carbon nanotubes based nanocomposites for photocurrent improvement

Incorporation, Oxidation and Pyrolysis of Ferrocene into Porous Silica Glass: a Route to Different Silica/Carbon and Silica/Iron Oxide Nanocomposites

Evaluation of multiwalled carbon nanotubes toxicity in two fish species

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