用于吸附新冠治疗用氯喹合成药物的新型芭蕉皮活性炭负载氧化锌纳米复合材料（PPAC-ZnO-NC）

Novel plantain peel activated carbon-supported zinc oxide nanocomposites (PPAC-ZnO-NC) for adsorption of chloroquine synthetic pharmaceutical used for COVID-19 treatment.

作者信息

Dada Adewumi O, Inyinbor Adejumoke A, Bello Olugbenga S, Tokula Blessing E

机构信息

Landmark University SDG 6, Omu-Aran, Nigeria.

Landmark University SDG 11, Omu-Aran, Nigeria.

出版信息

Biomass Convers Biorefin. 2021 Aug 21:1-13. doi: 10.1007/s13399-021-01828-9.

DOI:10.1007/s13399-021-01828-9

PMID:34458068

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8379561/

Abstract

Chloroquine has been reported as an effective drug for the treatment of COVID-19 and with the rise in its administration and continued use, metabolites of chloroquine invariably find their way into the environment. There are many concerns recently on the presence of pharmaceuticals in the aquatic environment, hence the need for environmental remediation via effective adsorbent. Plantain peel activated carbon-supported zinc oxide (PPAC-ZnO) nanocomposite was prepared and characterized using physicochemical and spectroscopic techniques. The rate of uptake of chloroquine by PPAC-ZnO nanocomposite was investigated by batch technique under different operational parameters. PPAC-ZnO nanocomposite was characterized by various physicochemical techniques by S = 606.07 mg, pH(pzc) = 4.98 surface area by Saer's method = 273.4 mg. The carboxylic, phenols, lactone, and basic sites were determined by the Boehm method. Chloroquine uptake was confirmed by FTIR and SEM before and after adsorption. Change in morphology after adsorption was revealed by scanning electron microscopy (SEM). X-ray diffraction (XRD) showed the crystallinity of PPAC-ZnO nanocomposite. The batch adsorption experiment results showed that adsorption capacity increased with an increase in temperature. The maximum chloroquine sorption was 78.89% at a concentration of 10 ppm and a temperature of 313 K. Equilibrium sorption fitted well to Langmuir and Temkin isotherms with a high correlation coefficient ( ) of 0.99. Pseudo-second-order best described the kinetic data and adsorption mechanism was pore diffusion dependent. Thermodynamics parameters (Δ = - 25.65 to - 28.79 kJmol; Δ = 22.06 kJmol and Δ = 157.69 Jmol) demonstrated feasibility, spontaneity, and endothermic behavior of the process with degrees of randomness. The activation energy for adsorption was less than 40 kJmol suggesting a physisorption mechanism. This study results revealed that PPAC-ZnO nanocomposites are a sustainable and effective adsorbent for the removal of pharmaceutical waste.

摘要

氯喹已被报道为治疗新冠肺炎的有效药物，随着其使用量的增加和持续应用，氯喹的代谢产物不可避免地进入环境。近期，人们对水环境中药物的存在深感担忧，因此需要通过有效的吸附剂进行环境修复。制备了芭蕉皮活性炭负载氧化锌（PPAC-ZnO）纳米复合材料，并采用物理化学和光谱技术对其进行了表征。通过分批技术在不同操作参数下研究了PPAC-ZnO纳米复合材料对氯喹的吸附速率。通过各种物理化学技术对PPAC-ZnO纳米复合材料进行表征，S = 606.07 mg，pH（pzc）= 4.98，采用赛尔法测定的表面积 = 273.4 mg。采用 Boehm 法测定了羧基、酚羟基、内酯基和碱性位点。吸附前后通过傅里叶变换红外光谱（FTIR）和扫描电子显微镜（SEM）确认了氯喹的吸附情况。扫描电子显微镜（SEM）显示了吸附后形态的变化。X射线衍射（XRD）显示了PPAC-ZnO纳米复合材料的结晶度。分批吸附实验结果表明，吸附容量随温度升高而增加。在浓度为10 ppm、温度为313 K时，氯喹的最大吸附率为78.89%。平衡吸附很好地符合朗缪尔等温线和坦金等温线，相关系数（）高达0.99。准二级动力学能最好地描述动力学数据，吸附机制取决于孔隙扩散。热力学参数（Δ = - 25.65至 - 28.79 kJmol；Δ = 22.06 kJmol和Δ = 157.69 Jmol）表明该过程具有可行性、自发性和吸热行为，且具有一定程度的随机性。吸附活化能小于40 kJmol，表明为物理吸附机制。本研究结果表明，PPAC-ZnO纳米复合材料是一种可持续且有效的吸附剂，可用于去除医药废弃物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4032/8379561/f09b7838b073/13399_2021_1828_Fig1_HTML.jpg

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用于吸附新冠治疗用氯喹合成药物的新型芭蕉皮活性炭负载氧化锌纳米复合材料（PPAC-ZnO-NC）

Novel plantain peel activated carbon-supported zinc oxide nanocomposites (PPAC-ZnO-NC) for adsorption of chloroquine synthetic pharmaceutical used for COVID-19 treatment.

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