Abstract
Carbons are obtained by heating organic substances up to 1000 deg C under inert atmosphere. The electronic properties of carbons change dramatically during this carbonisation process. By controlled preparation, it is possible to obtain electronically functional materials. The addition of iron to the organic starting material has a strong modifying effect and, in particular, carbonising a ferrocene-poly(furfuryl alcohol) (PFA) mixture at 700 deg C produces a carbon with a comparable electron transfer rate to platinum. {sup 57} Moessbauer spectra showed that the first transformation of the ferrocene is to magnetite, at 200-300 deg C. At 600 deg C, the magnetite is converted to wustite, while at 650 deg C {alpha}-iron starts to appear. The final products at 800 deg C were {alpha}-iron, {gamma}-iron and cementite, Fe{sub 3}C. Morphological changes were studied by SEM. The tentative explanation for these results is that the iron promotes the elimination of oxygen from the initial PFA structure to produce magnetite. At 600-650 deg C , the magnetite is carbothermically reduced to wustite and {alpha}-iron, forming glassy carbon. Above 700 deg C, the iron dissolves carbon atoms to make a solid solution. On cooling, some of this fractionates into graphitic carbon, cementite and {gamma}-iron stabilised
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Ozaki, J;
[1]
Cashion, J D;
Brown, L J
[2]
- Tohoku University, Sendai, Japan (Japan). Institute of Chemical Reaction Science
- Monash Univ., Clayton, VIC (Australia). Dept. of Physics
Citation Formats
Ozaki, J, Cashion, J D, and Brown, L J.
Chemical and morphological changes during production of conducting carbons from ferrocene-poly (furfuryl alcohol).
Australia: N. p.,
1996.
Web.
Ozaki, J, Cashion, J D, & Brown, L J.
Chemical and morphological changes during production of conducting carbons from ferrocene-poly (furfuryl alcohol).
Australia.
Ozaki, J, Cashion, J D, and Brown, L J.
1996.
"Chemical and morphological changes during production of conducting carbons from ferrocene-poly (furfuryl alcohol)."
Australia.
@misc{etde_362976,
title = {Chemical and morphological changes during production of conducting carbons from ferrocene-poly (furfuryl alcohol)}
author = {Ozaki, J, Cashion, J D, and Brown, L J}
abstractNote = {Carbons are obtained by heating organic substances up to 1000 deg C under inert atmosphere. The electronic properties of carbons change dramatically during this carbonisation process. By controlled preparation, it is possible to obtain electronically functional materials. The addition of iron to the organic starting material has a strong modifying effect and, in particular, carbonising a ferrocene-poly(furfuryl alcohol) (PFA) mixture at 700 deg C produces a carbon with a comparable electron transfer rate to platinum. {sup 57} Moessbauer spectra showed that the first transformation of the ferrocene is to magnetite, at 200-300 deg C. At 600 deg C, the magnetite is converted to wustite, while at 650 deg C {alpha}-iron starts to appear. The final products at 800 deg C were {alpha}-iron, {gamma}-iron and cementite, Fe{sub 3}C. Morphological changes were studied by SEM. The tentative explanation for these results is that the iron promotes the elimination of oxygen from the initial PFA structure to produce magnetite. At 600-650 deg C , the magnetite is carbothermically reduced to wustite and {alpha}-iron, forming glassy carbon. Above 700 deg C, the iron dissolves carbon atoms to make a solid solution. On cooling, some of this fractionates into graphitic carbon, cementite and {gamma}-iron stabilised by the carbon atoms. We believe that the furry surface is produced in this cooling process}
place = {Australia}
year = {1996}
month = {Dec}
}
title = {Chemical and morphological changes during production of conducting carbons from ferrocene-poly (furfuryl alcohol)}
author = {Ozaki, J, Cashion, J D, and Brown, L J}
abstractNote = {Carbons are obtained by heating organic substances up to 1000 deg C under inert atmosphere. The electronic properties of carbons change dramatically during this carbonisation process. By controlled preparation, it is possible to obtain electronically functional materials. The addition of iron to the organic starting material has a strong modifying effect and, in particular, carbonising a ferrocene-poly(furfuryl alcohol) (PFA) mixture at 700 deg C produces a carbon with a comparable electron transfer rate to platinum. {sup 57} Moessbauer spectra showed that the first transformation of the ferrocene is to magnetite, at 200-300 deg C. At 600 deg C, the magnetite is converted to wustite, while at 650 deg C {alpha}-iron starts to appear. The final products at 800 deg C were {alpha}-iron, {gamma}-iron and cementite, Fe{sub 3}C. Morphological changes were studied by SEM. The tentative explanation for these results is that the iron promotes the elimination of oxygen from the initial PFA structure to produce magnetite. At 600-650 deg C , the magnetite is carbothermically reduced to wustite and {alpha}-iron, forming glassy carbon. Above 700 deg C, the iron dissolves carbon atoms to make a solid solution. On cooling, some of this fractionates into graphitic carbon, cementite and {gamma}-iron stabilised by the carbon atoms. We believe that the furry surface is produced in this cooling process}
place = {Australia}
year = {1996}
month = {Dec}
}