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              Adsorption of methylene blue from aqueous solution onto porous cellulose-derived carbon/montmorillonite nanocomposites

              Adsorption of methylene blue from aqueous solution onto porous cellulose-derived carbon/montmorillonite nanocomposites

              Applied Clay Science

              Volume 161, 1 September 2018, Pages 256-264
               
              Dong ShenTongaCheng Wen WuaMoses O.AdebajobGui Chen JinaWei Hua YuaSheng Fu JicChun Hui Zhouad
              a
              Research Group for Advanced Materials & Sustainable Catalysis (AMSC), State Key Laboratory Breeding Base of Green Chemistry Synthesis Technology, Discipline of Industrial Catalysis, College of Chemical Engineering, Zhejiang University of Technology, Hangzhou 310032, China
              b
              Queensland University of Technology, GPO Box 2434, Brisbane, QLD 4001, Australia
              c
              State Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology, Beijing 100029, China
              d
              Centre for Future Materials, University of Southern Queensland, Toowoomba, Queensland 4350, Australia

              Received 13 September 2017, Revised 9 February 2018, Accepted 12 February 2018, Available online 1 May 2018.

               

              Abstract

              Biomass-derived amorphous carbon has received considerable attention in recent decades. In this paper, carbon/montmorillonite (CMt) nanocomposites were synthesized by a hydrothermal carbonization of cellulose and montmorillonite (Mt), and the adsorption properties were evaluated by the removal of methylene blue (MB) from aqueous solutions. The CMt was characterized by X-ray diffraction, Fourier transform infrared spectroscopy, Nitrogen adsorption-desorption isothermScanning electron microscopy, and Thermal analysis. The pseudo-first-order and pseudo-second-order kinetic models were used to describe the kinetic data and the Langmuir, Freundlich, Redlich-Peterson and Sips models were applied to describe the adsorption isotherms. The results showed that the equilibrium adsorption data was found to fit better to the Redlich-Peterson adsorption model, and the adsorption capacity for the removal of MB on CMt was 138.1?mg·g−1. The kinetic process of adsorption could be described by the pseudo-second-order model. The porous structure of CMt was responsible for the adsorption of MB. But the adsorption ability could be improved by increasing pH. Lastly, the adsorption mechanism was obtained.

              https://doi.org/10.1016/j.clay.2018.02.017
              https://www.sciencedirect.com/science/article/pii/S016913171830070X

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