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CHEMICALLY ACTIVATED CARBON FROM CORN STALK
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Namazi A.B., Jia C.Q., Allen D.G., Production and characterization of lignocellulosic biomass-derived activated carbon, Water Science and Technology, vol. 62, pp 2637-2646, 2010.
Bagheri N., Abedi J., Preparation of high surface area activated carbon from corn by chemical activation using potassium hydroxide, Chemical Engineering Research and Design, vol. 87, pp 1059-1064, 2009.
Abdul Khalil H.P.S., Jawaid M., Firoozian P., Rashid U., Islam A., Akil H.M., Activated carbon from various agricultural wastes by chemical activation with KOH: Preparation and characterization, Journal of Biobased Materials and Bioenergy, vol. 7, pp 708-714, 2013.
Hu Z., Srinivasan M.P., Mesoporous high-surface-area activated carbon, Microporous and Mesoporous Materials, vol. 43, pp 267-275, 2001.
Hu Z., Guo H., Srinivasan M.P., Yaming N., A simple method for developing mesoporosity in activated carbon, Separation and Purification Technology, vol. 31, pp -52, 2003.
Abdul Khalil H.P.S., Jawaid M., Firoozian P., Rashid U., Islam A., Akil H.M., Activated carbon from various agricultural wastes by chemical activation with KOH: Preparation and characterization, Journal of Biobased Materials and Bioenergy, vol. 7, pp 708-714, 2013.
Xu F ., Yu J., Tesso T., Dowell F., Wang D., Qualitative and quantitative analysis of lignocellulosic biomass using infrared techniques: A mini-review, Applied Energy, vol. 104, pp 801-809, 2013.
Adapa P.K., Karunakaran C., Tabil L.G., Schoenau G.J., Potential Applications of Infrared and Raman Spectromicroscopy for Agricultural Biomass Agricultural Engineering International: CIGR Journal, vol. XI pp 1-25, 2009.
Lima S.B, Borges S.M.S., do Carmo Rangel M., Marchetti S.G., Effect of iron content on the catalytic properties of activated carbon-supported magnetite derived from biomass, Journal of the Brazilian Chemical Society, vol. 24, pp. 344-354, 2013.
Le Van K., Thi T.T.L., Activated carbon derived from rice husk by NaOH activation and its application in supercapacitor, Progress in Natural Science: Materials International, vol. 24, pp 191-198, 2014.
Guo Y., Rockstraw D. A., Activated carbons prepared from rice hull by one-step phosphoric acid activation, Microporous and Mesoporous Materials, vol. 100, pp 12-19, 2007.
Keiluweit M., Nico P.S., Johnson M.G., Kleber M., Dynamic Molecular Structure of Plant Biomass-Derived Black Carbon (Biochar), Environmental Science & Technology, vol. 44, pp 1247–1253, 2010.
Hudec P. Textúra tuhých látok (in Slovak), STU: Bratislava, 311 p., 2012. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
Namazi A.B., Jia C.Q., Allen D.G., Production and characterization of lignocellulosic biomass-derived activated carbon, Water Science and Technology, vol. 62, pp 2637-2646, 2010.
Bagheri N., Abedi J., Preparation of high surface area activated carbon from corn by chemical activation using potassium hydroxide, Chemical Engineering Research and Design, vol. 87, pp 1059-1064, 2009.
Abdul Khalil H.P.S., Jawaid M., Firoozian P., Rashid U., Islam A., Akil H.M., Activated carbon from various agricultural wastes by chemical activation with KOH: Preparation and characterization, Journal of Biobased Materials and Bioenergy, vol. 7, pp 708-714, 2013.
Hu Z., Srinivasan M.P., Mesoporous high-surface-area activated carbon, Microporous and Mesoporous Materials, vol. 43, pp 267-275, 2001.
Hu Z., Guo H., Srinivasan M.P., Yaming N., A simple method for developing mesoporosity in activated carbon, Separation and Purification Technology, vol. 31, pp -52, 2003.
Abdul Khalil H.P.S., Jawaid M., Firoozian P., Rashid U., Islam A., Akil H.M., Activated carbon from various agricultural wastes by chemical activation with KOH: Preparation and characterization, Journal of Biobased Materials and Bioenergy, vol. 7, pp 708-714, 2013.
Xu F ., Yu J., Tesso T., Dowell F., Wang D., Qualitative and quantitative analysis of lignocellulosic biomass using infrared techniques: A mini-review, Applied Energy, vol. 104, pp 801-809, 2013.
Adapa P.K., Karunakaran C., Tabil L.G., Schoenau G.J., Potential Applications of Infrared and Raman Spectromicroscopy for Agricultural Biomass Agricultural Engineering International: CIGR Journal, vol. XI pp 1-25, 2009.
Lima S.B, Borges S.M.S., do Carmo Rangel M., Marchetti S.G., Effect of iron content on the catalytic properties of activated carbon-supported magnetite derived from biomass, Journal of the Brazilian Chemical Society, vol. 24, pp. 344-354, 2013.
Le Van K., Thi T.T.L., Activated carbon derived from rice husk by NaOH activation and its application in supercapacitor, Progress in Natural Science: Materials International, vol. 24, pp 191-198, 2014.
Guo Y., Rockstraw D. A., Activated carbons prepared from rice hull by one-step phosphoric acid activation, Microporous and Mesoporous Materials, vol. 100, pp 12-19, 2007.
Keiluweit M., Nico P.S., Johnson M.G., Kleber M., Dynamic Molecular Structure of Plant Biomass-Derived Black Carbon (Biochar), Environmental Science & Technology, vol. 44, pp 1247–1253, 2010.
Hudec P. Textúra tuhých látok (in Slovak), STU: Bratislava, 311 p., 2012. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
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