Nanoporous Carbon From Mulberry Leaves Residues via Microwave Assisted Hydrothermal-Carbonization for Methyl Orange Adsorption: Kinetic, Equilibrium and Thermodynamic Studies

AMI: Acta Materialia Pub Date : 2021-01-01 DOI:10.2139/ssrn.3906849

Siwat Siraoranroj, N. Kaewtrakulchai, M. Fuji, A. Eiad-ua

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Abstract

High performance nanoporous carbons (MLC) were directly prepared from mulberry leaves (Morus alba L.) residues by the hydrothermal-carbonization with chemical reagent combined the microwave-assisted treatment. The as-purified MLC was successfully applied for the adsorption of methyl orange, which is one of crucial waste-water pollutants left from an industrial sector. The MLC sample obtained from the hydrothermal process (200 °C, 12 h) using an activation of 15 wt% NaOH (700 °C, 2 h), and combined with microwave treatment at 700 W for 6 min, specifically exhibited micropores and mesopores in the MLC morphological structure. Accordingly, the highest SBET was approximately 791.79 m2/g with the total pore volume of 0.495 cm3/g. Moreover, the adsorption performance test of MLC was conducted by the shaking unit using 100 ppm methyl orange concentration. The MLC showed the highest methyl orange-adsorption uptake of 99% at 30 °C under an ambient pressure (1 atm). The development of mulberry leaves (Morus alba L.) residues into MLC exhibited a great attention for dyes adsorption with a rapid adsorption kinetic, and excellent adsorption capacity, which are a promising-characteristics for practical waste-water adsorption experiments.

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微波辅助水热碳化桑叶残基纳米孔碳吸附甲基橙:动力学、平衡和热力学研究

以桑叶残渣为原料，采用化学试剂水热碳化结合微波辅助处理的方法，直接制备了高性能纳米孔碳。纯化后的MLC成功地用于吸附工业废水中重要污染物之一甲基橙。用15 wt% NaOH(700℃，2 h)活化水热法(200℃，12 h)得到的MLC样品，并结合700 W微波处理6 min，在MLC形态结构中表现出微孔和介孔。因此，最高SBET约为791.79 m2/g，总孔隙体积为0.495 cm3/g。此外，在100 ppm甲基橙浓度下，通过摇床对MLC的吸附性能进行了测试。在30℃环境压力(1atm)下，MLC对甲基橙的吸收率最高，达到99%。桑叶残渣制备MLC具有快速的吸附动力学和优异的吸附性能，对染料的吸附备受关注，为实际废水吸附实验提供了良好的前景。

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AMI: Acta Materialia

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