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Title Selective to lithium ions nanocomposite sorbents based on TiO2 containing manganese spinel
Authors Chaban, M.O.
Rozhdestvenska, L.M.
Palchik, O.V.
Ponomarova, Liudmyla Mykolaivna  
Dzyazko, Y.S.
ORCID http://orcid.org/0000-0002-1637-3229
Keywords anatase
spinel
nanocomposite
lithium
adsorption
Type Article
Date of Issue 2021
URI https://essuir.sumdu.edu.ua/handle/123456789/85465
Publisher SHEI "Ukrainian State University of Chemical Technology"
License Creative Commons Attribution 4.0 International License
Citation Selective to lithium ions nanocomposite sorbents based on TiO2 containing manganese spinel / M.O. Chaban, L.M. Rozhdestvenska, O.V. Palchik [et.al.] // Voprosy khimii i khimicheskoi tekhnologii, 2021, No. 4, pp. 126-133.
Abstract A method for obtaining nanocomposite sorbents, which are selective towards Li+ ions, has been proposed. The samples were based on adsorptive-active anatase, the selective component being lithium-manganese spinel LiMn2O4. This component was synthesized preliminarily, its nanoparticles were added to the sol of insoluble titanium hydroxocomplexes, and the nanocomposite was precipitated from this suspension and calcined at 5000C. A number of sorbents with different molar ratio of Ti:Mn were prepared via this procedure; they were investigated by means of chemical analysis, X-ray diffraction analysis, optical microscopy, transmission electron microscopy and scanning electron microscopy. The size of nanocrystallites was 20–30 nm. An increase in the spinel amount caused a decrease in the sorbent grain size; however, they the sorbent grains were mechanically durable due to TiO2 which was a binder. Adsorption of Li+ from the solution containing an excess of Na+ ions was studied. The optimal amount of LiMn2O4 (13%) was determined. The sample was obtained in the form of rather large grains (0.3 mm) and the selectivity coefficient Li+/Na+ was about 500. The sorbent was regenerated by a 1 M HNO3 solution without manganese leakage. After 10 cycles of sorption-desorption, the concentrate was obtained. This concentrate can be used for Li2CO3 precipitation.
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