Catalytic Effect of Transition Metals (Copper, Iron, and Nickel) on the Foaming and Properties of Sugar-Based Carbon Foams
Varila, T., Romar, H., & Lassi, U. (2019). Catalytic Effect of Transition Metals (Copper, Iron, and Nickel) on the Foaming and Properties of Sugar-Based Carbon Foams. Topics in Catalysis, 62(7-11), 764-772. https://doi.org/10.1007/s11244-019-01171-4
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Topics in CatalysisDate
2019Copyright
© The Authors, 2019
Recently, bio-based carbon foams have gained much interest in many chemical industry felds because of their unique structure and properties. This study provides new information on the efects of catalytic metals (iron, nickel, and copper) on the
foaming process. Specifcally, the efects of these catalysts on the density, foam growth, and cell size and then further on
the pore size distribution and specifc surface areas after the physical activation are considered. Furthermore, some of the
activated sugar foams were used in adsorption tests using methylene blue as adsorbent. Results showed that the highest efect
on foam density was obtained using the iron catalyst in the foaming process. In addition, increasing the iron amount, the
development of micro-pores decreased from 95.2 to 60.3% after cabonization and activation of the foams. Nickel and iron
had the highest and lowest efect on foam rise at 1375 and 500%, respectively. Interestingly, when the nickel catalyst was
used, cell sizes and surface areas two times larger than those when the foams were prepared with the iron and copper catalysts was obtained. The specifc surface area of activated sugar-based carbon foams changed signifcantly with the increased
copper amount inside the foaming solution in compared with iron or nickel catalyst. Methylene blue adsorption capacity of
additional series of activated sugar foams decreased from 28 to 9% when meso-pore amount decreased.
...
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The content of the publication reflects only the author’s view. The funder is not responsible for any use that may be made of the information it contains.
Additional information about funding
Open access funding provided by University of Oulu including Oulu University Hospital. Toni Varila would like to thank the Green Bioraff Solutions Project (EU/Interreg/Botnia-Atlantica, 20201508) for funding this research.License
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