MOFs基材料用于环境污染控制文献整理(2024.10.24-2024.11.30)

文摘   2024-12-11 08:21   天津  

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题目Confined pyrolysis to transfer MXene-like MOF into 2D carbon nanosheet boosting the ozone oxidation of antibiotic: Degradation behavior and intrinsic mechanism

作者:Wenhui Li, Xiufang Shen, Zhonglin Chen, Tian Tian, Chenyong Liu, Cheng Gu, Weichuan Qiao, Ming Zhang*

摘要:Ozone oxidation as a means of water treatment has received great attention in recent years, but ozone has low solubility and utilization, which hinders their efficient treatment of refractory pollutants. Herein, a dopamine-encapsulated 2D MOF strategy is proposed, where different metal salts including (acetylacetone iron, manganese, copper, etc.) are doped in it as active site precursors. After pyrolysis, 2D hollow porous carbon nanosheet catalysts such as Mn-HCNSs, Fe-HCNSs, Cu-HCNSs and Co-HCNSs are formed due to the rigid interface-induction of dopamine. Mn-doped Mn-HCNSs exhibits the best catalytic degradation performance when the antibiotic tetracycline is used as the target pollutant, and the degradation efficiency reached 90 % within 25 min (k = 0.213 min−1). This excellent catalytic performance can be attributed to several advantages: (i) the hollow porous 2D structure facilitates mass transfer and enhances the reaction kinetic constants; (ii) the confinement effect of dopamine wrapping facilitates the generation of more dispersed active sites and accelerates its ozone decomposition efficiency. This study expands the application of 2D MOF-derived porous carbon materials in ozone oxidation.

期刊信息Chem. Eng. J.

DOI10.1016/j.cej.2024.158109

论文链接:


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题目Fabricated S-scheme CoS/CeO2 heterojunction photocatalyst efficiently activates peroxymonosulfate for polyethylene terephthalate plastic degradation: Insight into radicals and electron transfer

作者:Yang Wan, Huijie Wang, Jiejing Liu, Yuhe Lei, Wei Ma*, Xianghai Song, Weiqiang Zhou, Xin Liu, Jisheng Zhang, Binrong Li*, Pengwei Huo*

摘要:Polyethylene terephthalate (PET) plastics are widely utilized, yet they also give rise to significant environmental contamination. In this study, a CoS/CeO2 material with an S-scheme heterojunction was constructed using CoS with CeO2 derived from MOFs and employed for the photocatalytic activation of peroxomonosulfate (PMS) for the degradation of PET. The CoS/CeO2/vis/PMS system demonstrated a degradation rate of up to 95.75 % (weight loss rate) for PET plastic. The performance of this system is much better than that of simple photocatalytic or PMS systems. Photogenerated carriers generated by heterojunctions upon illumination accelerate the fast electron cycling of Co2+/Co3+ through the S-scheme transfer pathway driven by a directional interfacial electric field. This promoted efficient mass transfer in the inhomogeneous phase system (such as SO4•−, e) and acted as an adsorption activation site for PMS. In-situ X-ray photoelectron spectroscopy (In-situ XPS) and ESR test proved that the electron flow in the heterojunction conforms to the S-scheme mechanism. Density functional theory (DFT) calculations revealed the material of the CoS/CeO2 interface and the successful construction of the modulated electronic structure led to the accumulation of holes on CeO2 and electrons on CoS. Bader analysis on charge density distribution further demonstrated that the formation of the heterojunction decreased the adsorption energy of the PMS on the Co sites, which in turn lowered the energy barrier for the generation of SO4•−. This work would provide a novel solution to the problem of removing plastic pollutants from water, as well as new insight into the construction of S-scheme heterojunctions and the mechanism of photocatalytic PMS activation.

期刊信息:Chem. Eng. J.

DOI10.1016/j.cej.2024.158124

论文链接:


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题目Flexible electrochemical sensors based on nanomaterials: Constructions, applications and prospects

作者:Xiuying Li, Zheng Yong Zhang*, Fengyu Li*

摘要:With the widespread application of flexible electrochemical sensors in environmental monitoring, medical diagnosis, food quality and safety analysis, and the other related fields, many functional nanomaterials have been developed for the construction of flexible electrodes. Here, we review the recent advances in the construction of flexible electrochemical sensors, with special attention to the functional nanomaterials. Firstly, the working principle of such electrochemical sensors with functional materials are introduced. The functional materials are mainly including metal nanomaterials, carbon-based materials, metal organic framework-based materials, single-atom materials, conductive polymers, MXene-based materials, and others. These materials are employed in the construction of flexible electrochemical sensors based on their excellent electrochemical activity, large specific surface area, and good biocompatibility. Then, the review explores the different application of flexible electrochemical sensors in fields of sports monitoring, environmental monitoring, medical diagnosis, and food quality and safety. Finally, the challenges and future directions of flexible electrochemical sensing are further discussed.

期刊信息:Chem. Eng. J.

DOI10.1016/j.cej.2024.158101

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题目Defective NH2-MIL-53(Fe) with highly exposed metal active centers for enhanced synergistic adsorption and photocatalysis of ibuprofen

作者:Yanyu Song ,Xianbo Sun , Long D. Nghiem , Jun Duan , Wen Liu , Yongdi Liu*, Zhengqing Cai*

摘要:Since adsorption is a prerequisite for photocatalytic surface reactions, it is attractive to study adsorption and photocatalysis as a synergistic technique to achieve efficient decontamination. In this study, defective NH2-MIL-53(Fe) with highly exposed metal active centers was prepared through ligand modification and defect engineering, which exhibits dramatically enhanced adsorption and photocatalysis activity compared with the original MIL-53(Fe). With ibuprofen (IBP) as the target pollutant, the adsorption capacity increases from 11.4 to 25.0 mg/g within 60 min, and the photocatalysis rate under simulated solar light increases from 0.0044 to 0.056 min−1. For adsorption, -NH2 groups improves the adsorption affinity of the catalyst through additional hydrogen bonding effect and acid-base interaction. With HCl as modulator, defect construction ensures full exposure of metal active centers, and the exposed metal clusters become new adsorption sites for IBP through hydrogen bonding interaction. Moreover, by inducing increased free pore volume, defect engineering enhances the specific surface area of the material, thus allowing sufficient contact between the material and IBP to improve the adsorption capacity. For photocatalysis, -NH2 groups provide lone pair nitrogen to increase the electron density of benzene rings, thus promoting the electron transfer from ligands to metal clusters. Simultaneously, -NH2 substitution narrows the bandgap of catalyst by regulating the electronic structure, and narrower bandgap improves the visible light response of the material. As active sites for photocatalysis, highly exposed Fe-O clusters become more accessible due to defect construction, which can be directly excited by visible light to produce photoinduced carriers. The quenching experiments demonstrate that h+ and •O2 play the dominant role for photolysis, and the ecological toxicity of IBP is significantly reduced through the photocatalysis process. This work provides valuable reference for the research of bifunctional catalysts with synergistic adsorption and photocatalytic oxidation ability.

期刊信息:Sep. Purif. Technol

DOI10.1016/j.seppur.2024.130754

论文链接:


5

题目Effective adsorption of Congo red by an innovative biochar/LDH-derived MIL-100(Al): Investigation of coexisting pollutants and mechanism revelation

作者:Weikun Sun , Chuanfu Liu , Shengqin Liu , Jian Zhang*, Hongbin Chen , Zumin Qiu*

摘要:Herein, the innovative use of 2-aminoterephthalic acid on biochar/LDH(Mg/Al) derivatization succeeded in obtaining BL@MIL-100(Al), which was applied as an excellent adsorbent for the efficient removal of Congo red (CR). The adsorption capacity of BL@MIL-100(Al) was 5 times that of biochar and 2.5 times that of LDH(Mg/Al), respectively. The experimental results showed that the maximum adsorption capacity of BL@MIL-100(Al) reached 1672.34 mg/g at 303 K, which was much higher than that of the reported adsorbents. The Langmuir model and Elovich model described the adsorption process of BL@MIL-100(Al) better. In addition, the thermodynamic results indicated that the higher temperature favored the adsorption process of CR. Besides, BL@MIL-100(Al) showed strong immunity to chloride and sodium salts, and the presence of microplastics facilitated the adsorption of CR onto BL@MIL-100(Al). Meanwhile, BL@MIL-100(Al) still achieved  81 % removal efficiency after 6 cycles and showed long-term water purification in fixed-bed column experiment, indicating its outstanding stability. Additionally, the excellent adsorption performance in different kinds of natural water environments and binary systems demonstrated its wide applicability. Moreover, the adsorption mechanism of BL@MIL-100(Al) was systematically explored based on XRD, FT-IR, and XPS characterizations, in which amino protonation contributed prominently to the adsorption process. Thus, an innovative and facile approach to synthesize BL@MIL-100(Al) as an adsorbent for the removal of CR from wastewater is feasible.

期刊信息:Sep. Purif. Technol

DOI10.1016/j.seppur.2024.130670

论文链接:


6


题目CN vacancy engineering in Quasi-PBA heterojunction enhances photo-synergistic peroxymonosulfate activation efficiency

作者:Xiai Zhang , Yongren Liang , Xinwei Zhang , Huanran Miao, Qikui Fan , Jun Li , Tong Wang , Jingquan Wang , Zhimao Yang , Chuncai Kong*

摘要:The development of traditional photocatalysis and peroxymonosulfate activation is limited due to the stable removal and mineralization of mobile phase VOC, and the synergistic mechanism of the two processes is ignored. Quasi-CoFe PBA/g-C3N4 (H-CF PBA/g-C3N4) heterojunction was first designed and synthesized for the photocatalytic-enhanced PMS activation to degrade toluene. The construction of Quasi-Fe PBA with abundant CN vacancy increases the active metal site and enhances the light absorption and electron transport, promoting the synergistic effect. The built-in electric field between H-CoFe PBA and g-C3N4 further promotes efficient separation and transfer of photogenerated charge carriers. This synergy significantly boosts PMS activation, producing more reactive oxygen species and achieving efficient toluene mineralization. The H-CoFe PBA/g-C3N4 heterojunction achieved 91 % toluene degradation rate and 77 % mineralization rate, maintaining stability after five cycles, outperforming individual photocatalysis or PMS activation. Continuous-flow experiments revealed the feasibility of engineering applications. Thus, it is reasonable to believe that the synergistic catalytic system of heterojunction functional materials provides a new perspective for the removal of flowing-phase VOCs under low-temperature conditions.

期刊信息:Sep. Purif. Technol

DOI10.1016/j.seppur.2024.130594

论文链接:


7


题目Exploiting the nodes of metal-organic framework by grafting functional organic molecules for synergistic uranium extraction

作者:Zixuan Ma, Chang Sun , Danyan Lin , Wen Yao*, Hairui Hou , Dedong Wu , Xinrong Guo , Xin Yu* , Xiangxue Wang*

摘要:High-efficiency elimination of uranium was a research hotspot from the aspect of nuclear energy development. Metal chelators and porous materials were two cutting-edge technologies for the recovery and separation of uranium from wastewater. However, there was only limited success in transferring the metal coordination function of metal chelators to chemically stable host materials. Herein, oxamic acid (OxA) and glycine (Gly) functionalized MOF-808 were prepared by a simple solvent-assisted ligand incorporation method and used for uranium removal. The ordered porous structure of MOFs provided rapid diffusion channels, and the introduction of amino acids on Zr6 nodes endowed MOF-808 channels more functional groups with strong binding ability and high hydrophily. The MOF-808@OxA exhibited higher elimination ability (qmax = 370.76 mg·g-1), rapider elimination rate (40 min), and higher selectivity than those of MOF-808@Gly and original MOF-808 at pH = 5. Particularly, density functional theory calculations revealed that MOF-808@OxA had a stronger affinity for uranium compared to MOF-808@Gly due to the synergistic effect of C = O and -NH2 groups. Thus, this study provided a feasible strategy for modifying MOFs and a promising prospect for MOF-based materials to eliminate uranium from wastewater.

期刊信息:Sep. Purif. Technol

DOI10.1016/j.seppur.2024.130607

论文链接:




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题目Ultrathin metal-organic framework synergizes with carbon quantum dots improving photoelectrochemical water oxidation and tetracycline hydrochloride degradation performance

作者:Ruyi Wang* , Xingzhi Li , Yuxin Kan , Wenjun Fang , Caiyun Chen , Yongyan Chen ,Lingling Wang , Yong Jia*

摘要:Finding clean dual functional materials which can simultaneously alleviate energy and environmental issues is currently a research hotspot. In our work, TiO2/CQDs/NH2-MIL-125 photoanode system was constructed to explore the application of metalorganic frameworks (MOFs) materials in water splitting and biomedical wastewater treatment. The photocurrent density of the optimal TiO2/CQDs/NH2-MIL-125 photoanode reaches 1.7 mA/cm2 at 1.23 V vs. RHE, which is about 1.8 times that of pristine TiO2. More importantly, optimized photoanode displays an excellent remove ratio toward tetracycline hydrochloride of 74 % within 60 min. Through mechanism exploration, the excellent performance is attributed to the narrow band gap of NH2-MIL-125 widens the light absorption range to the visible region. Additionally, the specific electron conduction behavior of CQDs and the type heterojunction between TiO2/NH2-MIL-125 inhibited the photogenerated electron-hole recombination. This work explores the application of photoelectrochemical (PEC) materials in environmental catalytic clean production.

期刊信息:Sep. Purif. Technol

DOI10.1016/j.seppur.2024.130589

论文链接:


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本期编辑

  吕星霖,女,北京建筑大学资源与环境专业2024级硕士研究生。主要研究方向为金属-有机骨架材料的设计与制备及其在水环境修复方面的研究。


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新型环境修复材料与技术课题组

课题组网站链接:http://nmter.bucea.edu.cn


往期回顾:

 北建大/北大深研院/华理Nat.Commun.:多酸MOF电子海绵效应实现多通道电子定向传递强化类芬顿反应

★ 北建大王崇臣教授团队ChemComm:规模化制备漂浮型MIL-88A(Fe)@聚氨酯海绵用于高效油水分离

 北建大王崇臣教授团队CEJ综述:金属有机框架衍生物的新兴制备技术

 北建大王崇臣教授团队CEJ:Z型PTCDA/MIL-88A(Fe)在可见光下光催化活化PMS高效降解2, 4-D

 北建大王崇臣团队赵晨副教授Nano Energy:双通道Z型ZIF-L/g-C3N4异质结压电-光催化高效绿色制备H2O2

 北建大王崇臣教授团队付会芬副教授SPT:NH2-MIL-125从废水中高效捕获金及其在光催化中的应用:一种变废为宝的方法

 纳米-MOF-303 回收银离子制备Ag/AgCl/MOF-303 光催化剂:氯离子的作用探究

EFM封面论文:UiO-66基环境功能材料用于水环境修复

 漂浮型生物炭负载PBA纳米球用于光芬顿降解氯喹

 漂浮型MIL-88A@膨胀珍珠岩催化剂在紫外光和太阳光照射下连续光芬顿降解四环素类抗生素

★ 北京建筑大学王崇臣教授团队PNSMI环境功能材料专栏||缺陷型NH2-UiO-66吸附铅:制备策略、吸附行为和机理探究

 北建大王崇臣教授团队付会芬副教授JECE:Ag3PO4/TiO2增强光催化降解甲苯的矿化能力:氧空位的关键作用

Chin. J. Catal.:可控制备g-C3N4/PCN-224核壳结构异质结压电-光催化协同高效制备H2O2

 北建大王崇臣教授团队ChemComm约稿:ZIF-67衍生的Co2P/TD中空微米球催化活化PMS超快降解有机污染物

 《无机化学学报》封面论文:直接Z型MIL-100(Fe)/BiOBr异质结的构建及光芬顿活性探究

SPT专栏 ||Bio-MOF-1从废水中提取Ag:从吸附行为研究到高附加值应用

 北京建筑大学王崇臣团队CJC研究论文:ZIF-62(Co)玻璃催化活化过一硫酸盐降解水中微污染物

SPT研究论文:中空PVDF纤维膜装置高效分离MOFs微纳米材料

PNSMI环境功能材料专栏 ||由矿石生产MOF:一个利用铁精矿生产MIL-100(Fe)的案例
Dalton Transactions:一种钴锰双金属有机框架用于活化过一硫酸盐降解有机污染物
EFM综述论文:UiO-66基环境功能材料用于水环境修复
 北京建筑大学王崇臣教授ACB:深入了解不对称和对称氧空位在过一硫酸盐活化过程中极为不同的催化行为
SPT综述:载型Fe-MOFs用于水净化及重要矿物资源回收
★ 北京建筑大学王崇臣教授团队Surf.Interfaces综述:微波辅助法制备MOFs用于水处理
★ 北京建筑大学王崇臣教授团队PNSMI综述:MIL-100(Fe)基功能材料用于水处理
 北京建筑大学王崇臣教授团队Chemical Engineering Journal综述:金属有机框架/合成聚合物在水净化中的应用
 北建大王崇臣教授团队Chin. Chem. Lett.综述:三维大孔泡沫海绵负载MOFs用于大规模水处理
 北建大王崇臣教授团队Sep.普里夫。技术:新型钴基MOF活化PMS选择性氧化去除有机污染物:性能及机理研究
★ 北京建筑大学王崇臣教授团队ACB||Fe−Co双原子催化剂近100%电子转移机制降解多种污染物:PMS吸附模式的调控
 北建大王崇臣教授团队NJC:有机超导体改性的NH2-UiO-66在低功率紫外光照射下光催化还原去除水中Cr(VI)
 北建大王崇臣教授ACS ES&T Eng.:基于DFT计算验证缺陷FeSe2@MoO3中Se空位活化PMS的关键作用
 北建大王崇臣教授团队JCIS:铁铜双金属MOF用于类芬顿高效降解有机污染物
 北京建筑大学王崇臣与河海大学王大伟团队ACB:界面化学键Fe-O-P助力铁基MOF异质结高效光芬顿降解有机污染物
★ 王崇臣、段晓光、刘文团队合作ACB:缺陷MIL-88B(Fe)支持过硫酸盐再生实现低投入与低消耗的非自由基反应
★CEJ综述:MOFs衍生物的制备策略及催化去除水中污染物
★ 北建大王崇臣教授团队Chemosphere:金属有机骨架衍生FeS2@TiO2异质结材料光芬顿降解磺胺甲噁唑
★ 北建大王崇臣教授团队SEP PURIF TECHNOL:直接Z型ZIF-67/V-BiOIO3异质结对环丙沙星的高效去除:吸附和光催化协同效应
 北建大王崇臣教授团队《化学进展》综述||MIL-101(Fe)及其复合物催化去除污染物:合成、性能及机理
★ 北建大王崇臣教授团队Chin.Chem. Lett.亮点文章:MOFs功能材料用于水体中微/纳米塑料的去除


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