The effect of iron catalyzed graphitization on the textural properties of carbonized cellulose: Magnetically separable graphitic carbon bodies for catalysis and remediation

Publication date

2016-10-01

Authors

Hoekstra, J.ISNI 0000000391870441
Beale, AMISNI 000000039664243X
Soulimani, F.ISNI 0000000419429851
Versluijs-Helder, MarjanISNI 0000000419422596
Van De Kleut, Dirk
Koelewijn, Jacobus M.
Geus, John W.ISNI 0000000398227811
Jenneskens, LeoISNI 000000038742772X

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Document Type

Article
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taverne

Abstract

Whereas pyrolysis of pristine microcrystalline cellulose spheres yields nonporous amorphous carbon bodies, pyrolysis of microcrystalline cellulose spheres loaded with iron salts leads to the formation of magnetically separable mesoporous graphitic carbon bodies. The microcrystalline cellulose spheres loaded with either iron(III) nitrate, ammonium iron(III) citrate or iron(III) chloride were pyrolyzed up to 800 °C. Temperature dependent X-ray diffraction analysis shows that the iron salts are transformed into iron oxide nanoparticles; their size and distribution are influenced by the anion of the iron salt. The iron oxide nanoparticles are subsequently carbothermally reduced by the amorphous carbon that is obtained from the pyrolysis of the microcrystalline cellulose. Next, the iron nanoparticles catalyze the conversion of the amorphous carbon to graphitic carbon nanostructures as shown with XRD, electron microscopy and Raman spectroscopy. The extent of graphitization depends on the iron nanoparticle size. Nitrogen physisorption measurements show that this graphitization process introduces mesopores into the carbon bodies. The benefits of the properties of the resulting carbon bodies (ferromagnetic character, graphitic content, mesoporosity) are discussed in connection with applications in liquid-phase catalysis and remediation.

Keywords

Taverne, General Chemistry

Citation

Hoekstra, J, Beale, A M, Soulimani, F, Versluijs-Helder, M, Van De Kleut, D, Koelewijn, J M, Geus, J W & Jenneskens, L W 2016, 'The effect of iron catalyzed graphitization on the textural properties of carbonized cellulose : Magnetically separable graphitic carbon bodies for catalysis and remediation', Carbon, vol. 107, pp. 248-260. https://doi.org/10.1016/j.carbon.2016.05.065