Fabrication of submicron barium sulfate aggregates in the presence of ethylenediaminetetraacetic acid anions

Barium sulfate aggregates with an average size of 0.5μm were synthesized at pH 7, directed by ethylenediaminetetraacetic acid (EDTA) anions. The particle morphology, chemical composition, and size distribution of the BaSO4 aggregates were characterized. The as-synthesized BaSO4 particles were spheri...

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Published inParticuology Vol. 22; no. 5; pp. 157 - 162
Main Authors Hu, Linna, Wang, Guangxiu, Yang, Chun, Cao, Rong
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2015
Subjects
Barium sulfate
BaSO4
EDTA anion
EDTA络合
Particle morphology
pH value
Self-assembly
Zeta电位
乙二胺四乙酸
制备
聚集体
超细硫酸钡
阴离子
EDTA anion
Self-assembly
pH value
Particle morphology
Barium sulfate
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Summary:Barium sulfate aggregates with an average size of 0.5μm were synthesized at pH 7, directed by ethylenediaminetetraacetic acid (EDTA) anions. The particle morphology, chemical composition, and size distribution of the BaSO4 aggregates were characterized. The as-synthesized BaSO4 particles were spherical and comprised many interconnected nanoballs, of which the surface properties were affected by the EDTA anions. The adsorption of EDTA anions reversed the charge and weakened the surface polarity of BaSO4, instigating the formation of aggregates by a self-assembly and transformation process. The resulting BaSO4 particles at pH 9-10 were ellipsoidal and featured smooth surfaces. Based on the zeta potential of BaSO4, variations in the morphology induced by changes in pH were closely related to the adsorption of mono- and multi-valent anions onto the electrical double layer of BaSO4.
Bibliography:Barium sulfate aggregates with an average size of 0.5μm were synthesized at pH 7, directed by ethylenediaminetetraacetic acid (EDTA) anions. The particle morphology, chemical composition, and size distribution of the BaSO4 aggregates were characterized. The as-synthesized BaSO4 particles were spherical and comprised many interconnected nanoballs, of which the surface properties were affected by the EDTA anions. The adsorption of EDTA anions reversed the charge and weakened the surface polarity of BaSO4, instigating the formation of aggregates by a self-assembly and transformation process. The resulting BaSO4 particles at pH 9-10 were ellipsoidal and featured smooth surfaces. Based on the zeta potential of BaSO4, variations in the morphology induced by changes in pH were closely related to the adsorption of mono- and multi-valent anions onto the electrical double layer of BaSO4.
11-5671/O3
Barium sulfate;EDTA anion;Particle morphology;Self-assembly;pH value
ISSN:1674-2001
2210-4291
DOI:10.1016/j.partic.2014.11.009