2016
DOI: 10.1134/s2070205116030035
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Sorption of heavy metal ions by fullerene and polystyrene/fullerene film compositions

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Cited by 42 publications
(15 citation statements)
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“…Fullerenes have also been utilized in lithium ion batteries as anode and provide better efficiency with replacement of nondegradable metallic anodes, thereby proving to be beneficial in terms of efficiency and an environmentally friendly material. The physicochemical properties of fullerenes also make them suitable candidates for the extraction of different species from the aqueous media [59, 60]. Pickering et al designed water-soluble fullerene compounds and successfully applied them as sensitizer to produce reactive oxygen species (ROS) in water upon irradiation of visible and ultraviolet radiations.…”
Section: Classification Of Carbon Nanomaterials Based On Their Dimensmentioning
confidence: 99%
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“…Fullerenes have also been utilized in lithium ion batteries as anode and provide better efficiency with replacement of nondegradable metallic anodes, thereby proving to be beneficial in terms of efficiency and an environmentally friendly material. The physicochemical properties of fullerenes also make them suitable candidates for the extraction of different species from the aqueous media [59, 60]. Pickering et al designed water-soluble fullerene compounds and successfully applied them as sensitizer to produce reactive oxygen species (ROS) in water upon irradiation of visible and ultraviolet radiations.…”
Section: Classification Of Carbon Nanomaterials Based On Their Dimensmentioning
confidence: 99%
“…It is believed that fullerenes adsorbed species by the penetration of adsorbates in the spaces/defects between the carbon nanoclusters, and in addition to the defects, lower aggregation tendency and large surface area make them useful nanomaterials to be applied for adsorption of heavy metal ions from water [61, 62]. Alekseeva et al conducted comparative studies of fullerene and nanocomposite-polystyrene film for the removal of Cu 2+ ions; they found that fullerenes showed better efficiency [60]. They have also found that fullerenes follow the Langmuir model of adsorption for Cu 2+ ions [60].…”
Section: Classification Of Carbon Nanomaterials Based On Their Dimensmentioning
confidence: 99%
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“…Valcarcel et al [38] recognized that surface defects on fullerenes are the primary sites for adsorption when the contaminants enter the cage through spaces between the carbon nanoclusters. A study by Alekseeva et al [39] showed that Cu 2+ ions can be removed from water with an adsorption capacity of 14.6 mmol/g. Large-scale use of fullerenes is limited due to the prohibitive cost of fullerenes, Open Journal of Applied Sciences therefore small amounts of fullerenes are doped into adsorbents such as activated carbons.…”
Section: Carbon-based Nanoadsorbentsmentioning
confidence: 99%
“…Fullerenes have a hydrophobic character, high electron affinity, a high surface-to-volume ratio, and surface defects. Fullerenes have numerous applications, including in semiconductors, electronics, biomedical sciences, solar cells, sensors, cosmetics, artificial photosynthesis, and surface coatings [24,25]. The defects, lower aggregation tendency, and large surface area make fullerenes useful materials for the recovery of pollution from wastewater.…”
Section: Introductionmentioning
confidence: 99%