Removal of Indium Ions from Aqueous Solutions Using Hydroxyapatite and Its Two Modifications

Zinicovscaia, Inga; Yushin, Nikita; Humelnicu, Doina; Ignat, Maria; Humelnicu, Ionel; Grozdov, Dmitrii; Vershinina, T. N.

doi:10.3390/separations10070401

Cited by 2 publications

(1 citation statement)

References 49 publications

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“…Copper, cadmium, tin, and zinc did not interfere with the removal of indium. The studied adsorbents can be applied for multicycle wastewater treatment, demonstrating high adsorption and desorption capacity during three cycles [81].…”

Section: Sorption and Ion Exchangementioning

confidence: 99%

A Review on the Recovery and Separation of Gallium and Indium from Waste

Kluczka

2024

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Gallium and indium are crucial metals in various industries, such as the medical and telecommunication industries. They can find applications as pure metals, alloys and alloy admixtures, oxides, organometallic compounds, and compounds with elements such as nitrogen or arsenic. Recovery of these two metals from waste is an important issue for two main reasons. First, gallium and indium are scattered in the Earth’s crust and their minerals are too rare to serve as a primary source. Second, e-waste contributes to the rapidly growing problem of Earth littering, as its amount increased significantly in recent years. Therefore, it is essential to develop and implement procedures that will enable the recovery of valuable elements from waste and limit the emission of harmful substances into the environment. This paper discusses technological operations and methods that are currently used or may be used to produce pure gallium and indium or their oxides from waste. The first step was described—waste pretreatment, including disassembly and sorting in several stages. Then, mechanical treatment as well as physical, chemical, and physicochemical separations were discussed. The greatest emphasis was placed on the hydrometallurgical methods of gallium and indium recovery, to be more precise on the extraction and various sorption methods following the leaching stage. Methods of obtaining pure metals or metal oxides and their refining processes were also mentioned.

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Section: Sorption and Ion Exchangementioning

confidence: 99%

A Review on the Recovery and Separation of Gallium and Indium from Waste

Kluczka

2024

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Mesoporous Materials for Metal-Laden Wastewater Treatment

Grozdov,

Zinicovscaia

2023

Materials

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Rapid technological, industrial and agricultural development has resulted in the release of large volumes of pollutants, including metal ions, into the environment. Heavy metals have become of great concern due to their toxicity, persistence, and adverse effects caused to the environment and population. In this regard, municipal and industrial effluents should be thoroughly treated before being discharged into natural water or used for irrigation. The physical, chemical, and biological techniques applied for wastewater treatment adsorption have a special place in enabling effective pollutant removal. Currently, plenty of adsorbents of different origins are applied for the treatment of metal-containing aqueous solution and wastewater. The present review is focused on mesoporous materials. In particular, the recent achievements in mesoporous materials’ synthesis and application in wastewater treatment are discussed. The mechanisms of metal adsorption onto mesoporous materials are highlighted and examples of their multiple uses for metal removal are presented. The information contained in the review can be used by researchers and environmental engineers involved in the development of new adsorbents and the improvement of wastewater treatment technologies.

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Removal of Indium Ions from Aqueous Solutions Using Hydroxyapatite and Its Two Modifications

Cited by 2 publications

References 49 publications

A Review on the Recovery and Separation of Gallium and Indium from Waste

A Review on the Recovery and Separation of Gallium and Indium from Waste

Mesoporous Materials for Metal-Laden Wastewater Treatment

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