Details zur Publikation

Kategorie Textpublikation
Referenztyp Zeitschriften
DOI 10.3390/ijms24043831
Lizenz creative commons licence
Titel (primär) Bottom-up synthesis of de-functionalized and dispersible carbon spheres as colloidal adsorbent
Autor Balda, M.; Mackenzie, K. ORCID logo ; Woszidlo, S.; Uhlig, H.; Möllmer, J.; Kopinke, F.-D.; Schüürmann, G.; Georgi, A.
Quelle International Journal of Molecular Sciences
Erscheinungsjahr 2023
Department OEC; TUCHEM
Band/Volume 24
Heft 4
Seite von art. 3831
Sprache englisch
Topic T7 Bioeconomy
T9 Healthy Planet
Keywords activated carbon spheres; dispersibility; hydrothermal carbonization; adsorption; groundwater remediation; colloidal activated carbon
Abstract Recent innovative adsorption technologies for water purification rely on micrometer-sized activated carbon (AC) for ultrafast adsorption or in situ remediation. In this study, the bottom-up synthesis of tailored activated carbon spheres (aCS) from sucrose as renewable feedstock is demonstrated. The synthesis is based on a hydrothermal carbonization step followed by a targeted thermal activation of the raw material. This preserves its excellent colloid properties, i.e., narrow particle size distribution around 1 µm, ideal spherical shape and excellent aqueous dispersibility. We investigated the ageing of the freshly synthesized, highly de-functionalized AC surface in air and aqueous media under conditions relevant to the practice. A slow but significant ageing due to hydrolysis and oxidation reactions was observed for all carbon samples, leading to an increase of the oxygen contents with storage time. In this study, a tailored aCS product was generated within a single pyrolysis step with 3 vol.-% H2O in N2 in order to obtain the desired pore diameters and surface properties. Adsorption characteristics, including sorption isotherms and kinetics, were investigated with monochlorobenzene (MCB) and perfluorooctanoic acid (PFOA) as adsorbates. The product showed high sorption affinities up to log (KD/[L/kg]) of 7.3 ± 0.1 for MCB and 6.2 ± 0.1 for PFOA, respectively.
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Balda, M., Mackenzie, K., Woszidlo, S., Uhlig, H., Möllmer, J., Kopinke, F.-D., Schüürmann, G., Georgi, A. (2023):
Bottom-up synthesis of de-functionalized and dispersible carbon spheres as colloidal adsorbent
Int. J. Mol. Sci. 24 (4), art. 3831 10.3390/ijms24043831