Arsenic removal from water by metal-organic framework MIL-88A microrods

Wu, Hao; Ma, Meng-Dan; Gai, Wei‐Zhuo; Yang, Hongxun; Zhou, Jian‐Ge; Cheng, Zhenxiang; Xu, Pingguang; Deng, Zhen‐Yan

doi:10.1007/s11356-018-2751-2

Cited by 73 publications

(29 citation statements)

References 33 publications

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“…Fe‐based MOF, MIL‐88 A, was selected to remove arsenic pollution in water based on the possibility of making the As‐O‐Fe interactions . The synthesized MIL‐88 A (Fe 3 O(MeOH) 3 (O 2 C‐C 2 H 2 ‐CO 2 ) 3 ⋅(CH 3 CO − 2 )⋅nH 2 O) bears microporous channels and cages, which are beneficial for capture pollutants as shown in Figure a.…”

Section: Adsorption Of One Metal Ionmentioning

confidence: 99%

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Recent Progress in the Removal of Heavy Metal Ions from Water Using Metal‐Organic Frameworks

2020

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The efficient adsorption of heavy metal ions from wastewater has become a serious challenge from both environmental and biological viewpoints. Recently, porous metal‐organic frameworks (MOFs), with metallic clusters and organic linkers, have been developed as promising structures in the capture of different toxic and hazardous substances, including heavy metal ions, because of their unique features. Here there is a collection for recent progress in the field of water remediation from the variable‐valent metals in polluted water and the corresponding MOFs which are able to remove these pollutant agents from water. Meanwhile, effective factors in the absorption of metal ions are discussed. MOFs are considered to be a promising candidate for metal ions removal from wastewater.

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Section: Adsorption Of One Metal Ionmentioning

confidence: 99%

“… (a) Schematic picture of the MIL‐88 A synthesis and (b) Kinetic information for arsenic removal from aqueous solution with various primary As V concentrations using MIL‐88 A at pH 8 and 25 °C. Adapted with permission from Ref . Copyright 2018, Springer.…”

Section: Adsorption Of One Metal Ionmentioning

confidence: 99%

Recent Progress in the Removal of Heavy Metal Ions from Water Using Metal‐Organic Frameworks

2020

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“…The maximum adsorption capacity of BUC-17 toward AS(V) was 129.2 mg g −1 , which was higher than those of counterpart adsorbents like MIL-53(Al) [18], ZIF-8 [37] and other MOFs as listed in Table 1. For the initial As(V) concentrations of 50 and 100 mg L −1 , 90% equilibrium adsorption capacities were achieved within first 3 h, and the adsorption equilibrium was accomplished for As(V) solution with concentration of 50 and 100 mg L −1 within 12 h. To analyze adsorption kinetics and describe the adsorption behaviors, the pseudo first-order [27] and pseudo second-order kinetic [12,40] models (Eqs. 2and (3)) were fitted to the kinetic data.…”

Section: Adsorption Kineticsmentioning

confidence: 99%

“…The World Health Organization has regarded arsenic as a human carcinogen in drinking water and set a provisional standard of no more than 10 µg L −1 [11]. In natural waterbody, the arsenic exists in both inorganic arsenic compounds like arsenate, arsenite, and organic arsenic compounds like ASA (Arsanilic, C 6 H 8 AsNO 3 ) and ROX (Roxarsone, C 6 H 6 AsNO 6 ), in which As(V) is the primary arsenic species [12]. The existence of inorganic arsenic in natural water depends on the redox conditions.…”

Section: Introductionmentioning

confidence: 99%

“…Metal-organic frameworks (MOFs) are unique porous crystalline materials with large surface area, abundant binding site, regular channel, and tunable morphology, which are widely used in the fields of photocatalysis, adsorption, gas storage and separation [28][29][30][31][32]. Adsorptive removal of arsenic using MOFs have attracted extensive attentions due to their outstanding adsorption capacity, high removal efficiency, short reaction time and wide range of suitable pH values [7,12,33,34]. Furthermore, MOFs possess abundant metal sites even unsaturated coordination sites, which can be coordinated with arsenic for enhanced adsorption ability [35,36].…”

Section: Introductionmentioning

confidence: 99%

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Highly efficient removal of As(V) using metal–organic framework BUC-17

Pang

Wang

et al. 2020

SN Appl. Sci.

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Arsenic contamination is a great threat worldwide due to its toxicity and hardly degradable. The development of highly efficient adsorbents is an essential challenge in the water treatment field. A 2D metal-organic framework [Co 3 (tib) 2 (H 2 O) 12 ] (SO 4) 3 (BUC-17) has been synthesized by hydrothermal method, and was utilized as an efficient adsorbent to remove As(V) from contaminated water. The results showed that BUC-17 have higher adsorption capacity toward As(V) than most counterpart adsorbents, its maximum uptake capacity reached 129.2 mg g −1 at 298 K. The adsorption kinetics and isotherm behaviors were well fitted with pseudo-second-order and Langmuir model, respectively. The thermodynamic parameters such as free energy change ΔG°, enthalpy change ΔH° and entropy change ΔS° were both negative during the sorption process, suggesting that the adsorption process of BUC-17 towards As(V) was spontaneous and exothermal. The influence of pH and foreign ions on the adsorptive removal of As(V) using BUC-17 were investigated. The results showed that pH values have significant influence while co-existed anions (unless phosphate) exert slight effect on adsorption capacity. Finally, a corresponding adsorption mechanism was proposed and confirmed by scanning electron microscopy, Fourier Transform infrared spectra (FTIR) and X-ray photoelectron spectroscopy analysis.

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