Electrochemical synthesis and characterization of basic bismuth nitrate [Bi6O5(OH)3](NO3)5·2H2O: a potential highly efficient sorbent for textile reactive dye removal

Electrochemical synthesis and characterization of basic bismuth nitrate [Bi6O5(OH)3](NO3)5·2H2O: a potential highly efficient sorbent for textile reactive dye removal

A new method of synthesis was developed for the preparation of basic bismuth nitrate [Bi 6 O 5 (OH) 3 ](NO 3 ) 5 ·2H 2 O (ECBBN). Electrochemical synthesis of the material was carried out by galvanostatic electrodeposition from an acidic Bi(III) solution on a Ti substrate and further thermal treatme...

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Bibliographic Details
Published in:Research on chemical intermediates Vol. 46; no. 1; pp. 661 - 680
Main Authors: Najdanović, Slobodan M., Petrović, Milica M., Kostić, Miloš M., Mitrović, Jelena Z., Bojić, Danijela V., Antonijević, Milan D., Bojić, Aleksandar Lj
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 2020
Springer Nature B.V
Subjects:
Bismuth
Catalysis
Chemical synthesis
Chemistry
Chemistry and Materials Science
Deionization
Dyes
Electrochemical analysis
Heat treatment
Inorganic Chemistry
Isotherms
Physical Chemistry
Sorbents
Sorption
Substrates
Sorption
Basic bismuth nitrate
Textile dye
Reactive Blue 19
Electrochemical synthesis
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Summary:A new method of synthesis was developed for the preparation of basic bismuth nitrate [Bi 6 O 5 (OH) 3 ](NO 3 ) 5 ·2H 2 O (ECBBN). Electrochemical synthesis of the material was carried out by galvanostatic electrodeposition from an acidic Bi(III) solution on a Ti substrate and further thermal treatment in air at 200 °C. Characterization of ECBBN was conducted by employing SEM–EDX, N 2 adsorption, XRD and FTIR, and its pI was also determined. The analyses showed that the material obtained was pure [Bi 6 O 5 (OH) 3 ](NO 3 ) 5 ·2H 2 O. Morphologically, ECBBN aggregates were composed of crystals, some smaller than 50 nm. Electrochemically synthesized sorbent (ECBBN) was used for the removal of the textile dye Reactive Blue 19 (RB19) from deionized water and model solutions of polluted river water, and it showed considerably superior sorption performance compared to other inorganic sorbents synthesized by conventional methods reported in the literature. A kinetic study suggests that the sorption process is both under reaction and diffusion control. Equilibration of the sorption process was attained in several minutes, i.e. the sorption process is very fast. The sorption equilibrium data were well interpreted by the Langmuir, Redlich–Peterson and Brouers–Sotolongo isotherm. Using Langmuir isotherm, the maximum sorption capacity of ECBBN was reached at pH 2 and was 1049.19 mg g −1 .
ISSN:0922-6168
1568-5675
DOI:10.1007/s11164-019-03983-1