Illite-supported nanoscale zero-valent iron for removal of 238U from aqueous solution: characterization, reactivity and mechanism

Chen, Jing; Li, Yilian; Cui, Ruiping; Xu, Jian

doi:10.1007/s10967-014-3850-2

Cited by 27 publications

(9 citation statements)

References 43 publications

(51 reference statements)

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“…Then the tested amount of iron (III) was decreased and the tests were performed until the settlement was observed at least after 90 min. The nZVI is highly reactive within the first 1-2 h, after which the surface of the particles is mostly oxidized and has a reduced reactivity (Jing et al, 2015). This test allows the identification of when and at what concentration the nZVI starts to settle.…”

Section: Nzvi Agglomeration and Particle Settlingmentioning

confidence: 99%

Characterization of green zero-valent iron nanoparticles produced with tree leaf extracts

Machado

Pacheco

Nouws

et al. 2015

Science of The Total Environment

195

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a b s t r a c t Keywords:Zero-valent iron nanoparticles Green synthesis method Tree leaves Size Reactivity AgglomerationIn the last decades nanotechnology has become increasingly important because it offers indisputable advantages to almost every area of expertise, including environmental remediation. In this area the synthesis of highly reactive nanomaterials (e.g. zero-valent iron nanoparticles, nZVI) is gaining the attention of the scientific community, service providers and other stakeholders. The synthesis of nZVI by the recently developed green bottom-up method is extremely promising. However, the lack of information about the characteristics of the synthetized particles hinders a wider and more extensive application. This work aims to evaluate the characteristics of nZVI synthesized through the green method using leaves from different trees. Considering the requirements of a product for environmental remediation the following characteristics were studied: size, shape, reactivity and agglomeration tendency. The mulberry and pomegranate leaf extracts produced the smallest nZVIs (5-10 nm), the peach, pear and vine leaf extracts produced the most reactive nZVIs while the ones produced with passion fruit, medlar and cherry extracts did not settle at high nZVI concentrations (931 and 266 ppm). Considering all tests, the nZVIs obtained from medlar and vine leaf extracts are the ones that could present better performances in the environmental remediation. The information gathered in this paper will be useful to choose the most appropriate leaf extracts and operational conditions for the application of the green nZVIs in environmental remediation.

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Section: Nzvi Agglomeration and Particle Settlingmentioning

confidence: 99%

Characterization of green zero-valent iron nanoparticles produced with tree leaf extracts

Machado

Pacheco

Nouws

et al. 2015

Science of The Total Environment

195

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“…This is a general phenomenon where NZVI displays a much higher reactivity than ZVI does due to the lower particle size and larger surface area. [51][52][53][54][55][56][57][58][59][60][61] Besides, in previous reports, it was regarded that gas bubbles (likely H 2 ) could be generated in the NZVI reaction system, and the rapid formation of H 2 might enhance the performance of UĲVI) and SeĲIV) sequestration, while these gas bubbles could not be observed in the ZVI reaction system, hence UĲVI) and SeĲIV) sequestration onto ZVI can not be enhanced. Using NaBH 4 as a reductant, during the synthesis of NZVI, the reduction product (i.e.…”

Section: Enhanced Sequestration Of Uĳvi) and Seĳiv) By Nzvi/na-mont A...mentioning

confidence: 99%

“…41 Hence, intensive efforts have been devoted to the development of new forms of supported NZVI particles. Consequently, a large number of porous supports like sepiolite, 40 zeolite, 41 resin, 42,43 mesoporous silica, 44,45 diatomite, [46][47][48] bentonite, [49][50][51][52] illite, 53 smectite, 54 rectorite, 55 montmorillonite, 41,[56][57][58] MgĲOH) 2 , 59 layered double hydroxides, 60,61 and carbon-based nanomaterials [61][62][63][64][65][66][67] have been employed to increase the durability, reactivity and mechanical strength of NZVI and these supported NZVI materials exhibited a much higher rate and efficiency in contaminant sequestration from aqueous solutions, compared with that of bare NZVI.…”

Section: Introductionmentioning

confidence: 99%

“…Clay mineral is an enormously abundant natural resource and has been regarded as a class of suitable supports due to its potential applicability in environmental pollution control. [49][50][51][52][53][54][55] Montmorillonite (Mont) is one of the most expandable clay minerals characterized by its laminar organization, consisting of two tetrahedral layers of silica and a central octahedral layer of aluminum oxide. 41 This material has been widely used in the sequestration of metal ions from aqueous solutions, which occurs following two mechanisms, i.e.…”

Section: Introductionmentioning

confidence: 99%

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X-ray absorption fine structure study of enhanced sequestration of U(vi) and Se(iv) by montmorillonite decorated with zero-valent iron nanoparticles

Ren

et al. 2016

Environ. Sci.: Nano

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“…With the rapid development of industrialization and civilization, nuclear energy has been widely used in many countries whereas the increasing production of radionuclides has attracted public attention due to their strong radioactivity and bioaccumulation . The post-process of spent fuel leads to the release of various radionuclides into the subsurface environment, which unpredictably threatens ecological diversity, water security, and human public health. , Uranium as one of the basic raw materials of nuclear energy exhibits two oxidized states, namely, dissolved U(VI) and sparingly dissolved U(IV). , Therefore, it is extremely necessary and urgent to remove U(VI) from the environment using effective technologies because of its high chemical toxicity and long half-life (4.5 billion years). − The reduction of water-soluble U(VI) to insoluble U(IV) (i.e., precipitated UO 2 ) is an effective method to eliminate U(VI) from wastewater. − …”

Section: Introductionmentioning

confidence: 99%

The Removal Mechanism of U(VI) on nZVI/MoS₂ Composites Investigated by Batch, Spectroscopic, and Modeling Techniques

et al. 2023

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A novel nanoscale zero-valent iron/molybdenum disulfide (nZVI/MoS 2 ) composite was synthesized and well characterized in detail. The as-prepared materials were applied for the removal of U(VI) from water solutions under various experimental conditions. The characterizations showed that nZVI/MoS 2 composites exhibited a high surface area and uniform distribution of nZVI. The maximum adsorption capacities of nZVI/MoS 2 obtained from the Langmuir model (71.8 mg/g at pH 4.0 and 25 °C) were higher than that of MoS 2 (39.92 mg/g) due to the synergistic effect. According to the fitting of surface complexation modeling, U(VI) removal on nZVI/MoS 2 included cation exchange and inner-sphere surface complexation at low and high pH, respectively, whereas the adsorbed U(VI) was partly reduced into U(IV) by nZVI/MoS 2 composites. According to analysis of XPS analysis, the enhanced removal of U(VI) on nZVI/MoS 2 was due to the complexation of U(VI) with various oxygenated functional groups (e.g., −OH, Fe−O, and Mo−O functional groups) and then adsorbed U(VI) was reduced to U(IV) by Fe 0 and/or Fe(II). These findings showed that nZVI/MoS 2 could be used as efficient adsorbents for the high elimination of U(VI) from contaminated wastewater in environmental pollution cleanup.

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Illite-supported nanoscale zero-valent iron for removal of 238U from aqueous solution: characterization, reactivity and mechanism

Cited by 27 publications

References 43 publications

Characterization of green zero-valent iron nanoparticles produced with tree leaf extracts

Characterization of green zero-valent iron nanoparticles produced with tree leaf extracts

X-ray absorption fine structure study of enhanced sequestration of U(vi) and Se(iv) by montmorillonite decorated with zero-valent iron nanoparticles

The Removal Mechanism of U(VI) on nZVI/MoS₂ Composites Investigated by Batch, Spectroscopic, and Modeling Techniques

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Illite-supported nanoscale zero-valent iron for removal of 238U from aqueous solution: characterization, reactivity and mechanism

Cited by 27 publications

References 43 publications

Characterization of green zero-valent iron nanoparticles produced with tree leaf extracts

Characterization of green zero-valent iron nanoparticles produced with tree leaf extracts

X-ray absorption fine structure study of enhanced sequestration of U(vi) and Se(iv) by montmorillonite decorated with zero-valent iron nanoparticles

The Removal Mechanism of U(VI) on nZVI/MoS2 Composites Investigated by Batch, Spectroscopic, and Modeling Techniques

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The Removal Mechanism of U(VI) on nZVI/MoS₂ Composites Investigated by Batch, Spectroscopic, and Modeling Techniques