可可豆荚改性长石复合材料的制备与表征及其在废水处理中的金属吸附作用

K. A. Sanusi, Yakubu Yahaya, M. M. Ambrusa, A. Rabiu, Moshood Hamzat
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引用次数: 0

摘要

以可可豆荚(TCP)和长石(FS)为原料,采用煅烧法制备了改性长石复合材料(MFC)。可可豆荚长石样品首先用0.1M NaOH溶液进行na修饰,然后在3000C的马弗炉中煅烧,完成复合制备过程。采用XRF、x射线衍射(XRD)、BET、扫描电镜(SEM)和傅里叶变换红外光谱(FTIR)对可可豆荚(TCP)、长石(FS)和改性长石复合材料(MFC)进行了表征。结果表明,改性长石复合材料的阳离子交换容量(30.66±0.21 meq/100g)是原长石(6.42±0.45 meq/100g)的5倍。新型生物杂化材料MFC的比表面积为53.60±0.3 m2/g,粒径为105.4±0.18。XRD谱图显示,改性后长石与复合材料的部分衍射峰的位置发生了轻微的变化,表明长石的晶体性质在新型复合材料(MFC)中得到了保留。FTIR结果表明,两种原料中存在的一些官能团也存在于复合材料(MFC)表面,表明TCP生物质在长石表面的插层是成功的。改性长石复合材料(MFC)具有良好的阳离子交换能力和生态友好性,在废水处理中作为重金属吸附剂具有良好的应用前景。
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Preparation and characterization of Theobroma cacao pod-modified feldspar composite for possible metal adsorption in wastewater management
In this study modified feldspar composite (MFC) was prepared from the combination of Theobroma cacao pod (TCP) and feldspar (FS) using calcination method. The Theobroma cacao pod-feldspar sample was first Na-modified by treatment using 0.1M NaOH solution before calcination in the muffle furnace at 3000C to complete the process of composite preparation. The Theobroma cacao pods (TCP), feldspar (FS) and modified feldspar composite (MFC) were characterized using XRF, X-ray diffraction (XRD), Brunauer Emmett and Teller ( BET) analysis, scanning electron microscopy (SEM) and Fourier transforms infrared spectroscopy (FTIR). The results showed that the cation exchange capacity of the modified feldspar composite (30.66 ± 0.21 meq/100 g) was 5 times higher than that of raw feldspar (6.42 ± 0.45 meq/100g). More so, the novel biohybrid material, MFC has a surface area of 53.60 ± 0.3 m2/g and particle size of 105.4 ± 0.18. The XRD patterns revealed that after the modification process, there is only slight shift in the position of some diffraction peaks of feldspar and the composite material indicating the retention of the crystalline properties of the feldspar in the novel composite (MFC). FTIR results showed that some functional groups present in the two starting materials were also available on the surface of the composite (MFC) indicating that the intercalation of TCP biomass into feldspar surface was successful. Owing to its improved cation exchange capacity and eco-friendliness, the modified feldspar composite (MFC) has a good potential application as adsorbent for heavy metals in wastewater treatment besides other industrial explorations.
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