生物诱导矿化合成mco3和MnO2沉淀有效吸附水溶液中As(V)的新进展

Anggraeni Kumala Dewi, Raju Kumar Sharma, Koyeli Das, Uttara Sukul, Pin-Yun Lin, Yi-Hsun Huang, Chung Ming Lu, Chien-Yen Chen
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摘要

As(V)正在成为造成全球水污染问题的危险和有毒化学物质之一。在吸附剂的几种合成方法中,生物矿化法表现出良好的潜力。本研究通过生物诱导矿化方法和煅烧过程中合成的合成碳酸锰沉淀(BISMCP)材料的形态变化,得到了生物诱导合成碳酸锰沉淀(MDSMCP)。本文研究了BISMCP和MDSMCP去除水溶液中As(V)的潜在能力。表征结果表明,两种材料均通过生物矿化工艺成功合成。TGA分析表明,在200-450℃时,mco3向MnO2相变明显。制备的纳米复合材料的BET比表面积分别为109.006 m2/g (BISMCP)和91.672 m2/g (MDS-300)。EDX分析表明,BISMCP和MDSMCP晶体中的元素为Mn、C和o。BISMCP和MDSMCP的XRD分析结果表明,晶体结构分别接近菱锰矿(MnCO3)和软锰矿(MnO2)。详细研究了pH值、接触时间、污染物浓度等因素的影响。BISMCP和MDS-300的pHPZC值分别为5.5和1.50。根据pH的影响,BISMCP和MDS-300分别在pH为6和2时具有较好的吸附能力。对BISMCP和MDS-300的动力学研究表明其拟二阶(PSO)拟合良好。实验平衡数据符合Langmuir等温线模型,最大单层吸附容量为119.331 mg/g (BISMCP)和112.107 mg/g (MDS-300)。该研究表明BISMCP和MDS-300是潜在的有用的吸附As(V)的吸附剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Newly-Development of Synthetic MnCO3 and MnO2 Precipitate Through Biologically-Induced Mineralization for Effective Adsorption of As(V) in Aqueous Solution
As(V) is becoming one of the dangerous and toxic chemicals causing the global issue of water pollution. Among several synthesis processes of adsorbent, biomineralization method has shown good potential. This study presented the biologically-induced synthetic Manganese Carbonate Precipitate (BISMCP) through biologically-induced mineralization method and formation change of BISMCP material after calcination process which is becoming MDSMCP. Herein, the potential ability of BISMCP and MDSMCP was performed for removal of As(V) in an aqueous solution. Characterization results showed both materials were successfully synthesized by the biomineralization process. TGA analysis showed the phase transition from MnCO3 to MnO2 significantly at 200-450 ºC. The BET surface area of the as-prepared nanocomposites was found to be 109.006 m2/g (BISMCP) and 91.672 m2/g (MDS-300). EDX analysis showed the elements in the crystal BISMCP and MDSMCP were Mn, C, and O. XRD result of BISMCP and MDSMCP determined the crystal structure, which are close to rhodochrosite (MnCO3) and pyrolusite (MnO2), respectively. Effects of pH, contact time, and varying pollutant concentration were studied in detail. The pHPZC value of BISMCP and MDS-300 was 5.5 and 1.50, respectively. According effect of pH, BISMCP and MDS-300 had better adsorption capacity at pH 6 and 2, respectively. The kinetic study for BISMCP and MDS-300 indicated that well fitted with pseudo-second-order (PSO). The experimental equilibrium data followed the Langmuir isotherm model with a maximum monolayer adsorption capacity of 119.331 mg/g (BISMCP) and 112.107 mg/g (MDS-300). This study implies that BISMCP and MDS-300 are potentially useful adsorbents for the adsorption of As(V).
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