Adsorption Performance of Zn(II)-Based Coordination Polymer (ZnMOF) Reinforced Magnetic Activated Biochar (CmBC-Fe₃O₄@ZnMOF) Hybrid Composites.

IF 2.5 4区环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL

Water Environment Research Pub Date : 2025-06-01 DOI:10.1002/wer.70113

Muradiye Şahin, Yasin Arslan, Muhammet Atasoy, Mika Sillanpää

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引用次数: 0

Abstract

Evaluation of organic wastes originating from livestock as biochar is of great importance in terms of both economic and environmentally friendly sustainable material production. In this study, cow manure (C_m), an animal waste, was used for biochar (BC) production. The obtained biochar was activated with Fe₃O₄ and given magnetic properties (CmBC-Fe₃O₄), then modified with a Zn(II)-based coordination polymer (ZnMOF) to synthesize a hybrid material, CmBC-Fe₃O₄@ZnMOF. The synthesis of this innovative hybrid material was carried out in two stages: In the first stage, CmBC-Fe₃O₄ was obtained by in situ synthesis method. In the second stage, it was modified with ZnMOF synthesized by solvothermal method to obtain the innovative adsorbent of CmBC-Fe₃O₄@ZnMOF hybrid material. The synthesized CmBC-Fe₃O₄, ZnMOF, and CmBC-Fe₃O₄@ZnMOF were characterized by scanning electron microscopy equipped with energy dispersive X-ray spectrometry (SEM-EDX), X-ray diffraction analysis (XRD), Fourier transform infrared spectroscopy (FTIR), TG/DTA, and BET analyses. Based on kinetic feasibility, CmBC-Fe₃O₄@ZnMOF has the highest removal efficiency. The removal efficiencies of Pb(II), Cd(II), Cu(II), and Mn(II) in the synthetic water sample were found to be 81.39%, 69.52%, 58.47%, and 32.53%, respectively. On the other hand, the corresponding removal efficiencies in the milk sample were found to be 64.63%, 43.02%, 30.62%, and 19.27%, respectively. Isotherm (Dubinin-Radushkevich, Freundlich, and Langmuir) and kinetic (Elovich, Ho-McKay, and Lagergren) models were used and mostly fit with Ho-McKay second-order rate equation and the Freundlich isotherm model. In addition, the reusability studies were carried out in three cycles, and it was observed that it can be used after three cycles without losing its efficiency. It was concluded that the CmBC-Fe₃O₄@ZnMOF hybrid material is an effective adsorbent with the potential to remove heavy metals from both water and milk solutions and its selectivity for Pb(II) and Cd(II) is higher than that for Cu(II), and Mn(II). SUMMARY: Hybrid material (CmBC-Fe₃O₄@ZnMOF) structures combining unit cells with different adsorption capacities. Zn(II)-based coordination polymer (ZnMOF) and activated magnetic biochar (CmBC-Fe₃O₄) were used to evaluate their performance on heavy metal removal from milk and synthetic water samples. CmBC-Fe₃O₄ was synthesized by a one-step in situ synthesis method and ZnMOF by solvothermal method. CmBC-Fe₃O₄@ZnMOF showed excellent and selective adsorption capacity especially for Pb(II) and Cd(II). The removal efficiencies for Pb(II), Cd(II), Cu(II), and Mn(II) in synthetic water sample were found to be 81.39%, 69.52%, 58.47%, and 32.53%, respectively. The removal efficiencies for Pb(II), Cd(II), Cu(II), and Mn(II) in milk sample were found to be 64.63%, 43.02%, 30.62%, and 19.27%, respectively.

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锌（II）基配位聚合物（ZnMOF）增强磁活化生物炭（CmBC-Fe3O4@ZnMOF）杂化复合材料的吸附性能。

从经济和环境友好的可持续材料生产的角度来看，评价源自牲畜的有机废物作为生物炭具有重要意义。本研究利用动物粪便牛粪（Cm）生产生物炭（BC）。将得到的生物炭用Fe₃O₄活化并赋予其磁性（CmBC-Fe₃O₄），然后用Zn（II）基配位聚合物（ZnMOF）改性，合成了杂化材料CmBC-Fe₃O₄@ZnMOF。该新型杂化材料的合成分两个阶段进行：第一阶段采用原位合成法制备了cbc - fe3o4；第二阶段采用溶剂热法合成的ZnMOF对其进行改性，得到新型CmBC-Fe3O4@ZnMOF杂化材料吸附剂。采用扫描电镜、能谱分析（SEM-EDX）、x射线衍射分析（XRD）、傅里叶变换红外光谱（FTIR）、热重/差热分析（TG/DTA）和BET分析对合成的CmBC-Fe₃O₄、ZnMOF和CmBC-Fe₃O₄@ZnMOF进行了表征。基于动力学可行性，CmBC-Fe3O4@ZnMOF具有最高的去除效率。合成水样中Pb（II）、Cd（II）、Cu（II）和Mn（II）的去除率分别为81.39%、69.52%、58.47%和32.53%。另一方面，牛奶样品中相应的去除率分别为64.63%、43.02%、30.62%和19.27%。采用了等温线模型（Dubinin-Radushkevich, Freundlich, and Langmuir）和动力学模型（Elovich, Ho-McKay, and Lagergren），它们大多符合Ho-McKay二阶速率方程和Freundlich等温线模型。另外，在三个循环中进行了重复使用研究，观察到它可以在三个循环后使用而不损失其效率。结果表明，CmBC-Fe3O4@ZnMOF杂化材料是一种有效的吸附剂，对水和牛奶溶液中的重金属均有较好的去除效果，对Pb（II）和Cd（II）的选择性高于对Cu（II）和Mn（II）的选择性。摘要：混合材料（CmBC-Fe3O4@ZnMOF）结合了具有不同吸附能力的单元细胞的结构。采用Zn（II）基配位聚合物（ZnMOF）和活化磁性生物炭（cbc - fe3o4）对牛奶和合成水样中重金属的去除效果进行了研究。采用一步原位合成法和ZnMOF溶剂热法合成了cbc - fe3o4。CmBC-Fe3O4@ZnMOF对Pb（II）和Cd（II）表现出优异的选择性吸附能力。对合成水样中Pb（II）、Cd（II）、Cu（II）和Mn（II）的去除率分别为81.39%、69.52%、58.47%和32.53%。对牛奶样品中Pb（II）、Cd（II）、Cu（II）和Mn（II）的去除率分别为64.63%、43.02%、30.62%和19.27%。

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来源期刊

Water Environment Research 环境科学-工程：环境

CiteScore

6.30

自引率

0.00%

发文量

138

审稿时长

11 months

期刊介绍： Published since 1928, Water Environment Research (WER) is an international multidisciplinary water resource management journal for the dissemination of fundamental and applied research in all scientific and technical areas related to water quality and resource recovery. WER''s goal is to foster communication and interdisciplinary research between water sciences and related fields such as environmental toxicology, agriculture, public and occupational health, microbiology, and ecology. In addition to original research articles, short communications, case studies, reviews, and perspectives are encouraged.