Fe-based catalytic modification of a birch sawdust-based carbon structure : The effect of process parameters on the final product using an experimental design
Lempiäinen, H., Bergna, D., Heponiemi, A., Hu, T., dos Reis, G. S., Sliz, R., & Lassi, U. (2024). Fe-based catalytic modification of a birch sawdust-based carbon structure : The effect of process parameters on the final product using an experimental design. Carbon trends, 17, Article 100428. https://doi.org/10.1016/j.cartre.2024.100428
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Carbon trendsAuthors
Hu, Tao |
Date
2024Copyright
© 2024 The Author(s). Published by Elsevier Ltd.
Biomass waste-based, graphite-like material is an interesting alternative to fossil carbons in, for example, battery solutions. The aim was to produce carbon with a graphite-like structure from birch waste through catalytic modification with iron nitrate at relatively low temperatures. The study highlighted the effects of the Fe/birch mass ratio (0–20 mg Fe/g birch), heating temperature (750–900°C), holding time (1-6 h), and heating rate (3–10°C/min) on the carbon. The influence of each factor was demonstrated using a design of experiments (DoE) approach. Changes in yield, chemical composition, morphology, specific surface area, total pore volume, pore size distribution, particle size, tapped density, and conductivity were analyzed. The results showed that temperature affected the chemical content, yield, and conductivity. Iron-impregnation affected the structure of birch by modifying its total pore volume, tapped density, ID/IG value, and conductivity. The heating rate and holding time had relatively little effect. The highest conductivity (7.23 S/cm) was obtained when impregnated birch was pyrolyzed at the maximum temperature, holding time, and heating rate. However, the best graphitization result (ID/IG 0.98) was obtained when iron-impregnated birch was heated for 6 h at 750°C at a heating rate of 3°C/min.
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The authors acknowledge the financial support provided by the EU/EURF/Carbotech (A75548), BF/PUMA (4736/31/2019), and EU/InterregAurora/GreenBattery (20357574) projects, and the Central Ostrobothnia Regional Fund (Finnish Cultural Foundation). Dr. Glaydson dos Simoes Reis gratefully acknowledges financial support from the Research Council of Finland (Academy Research Fellows 2024, Project: Bio-Adsorb&Energy, grant no. 361583). ...License
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