Separation between cassiterite and quartz by a synthesized collector 2-(2-(hydroxycarbamoyl)phenoxy)acetic acid

Fine-grained cassiterite usually was recovered by flotation technology. Salicylhydroxamic acid and benzhydroxamic acid are widely used as collectors in the cassiterite flotation. However, they are subject to certain restrictions in industry production due to large dosage and high cost. Therefore, 2-...

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Published inSeparation and purification technology Vol. 380; p. 135294
Main Authors Qin, Longwei, Lv, Jinfang, Qi, Jing, Qian, Haiyu, Zhang, Chunli
Format Journal Article
LanguageEnglish
Published Elsevier B.V 07.02.2026
Subjects
Cassiterite
Flotation separation
HCPAA
Quartz
Synthetic collector
Synthetic collector
HCPAA
Cassiterite
Quartz
Flotation separation
Online AccessGet full text
ISSN1383-5866
DOI10.1016/j.seppur.2025.135294

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Abstract Fine-grained cassiterite usually was recovered by flotation technology. Salicylhydroxamic acid and benzhydroxamic acid are widely used as collectors in the cassiterite flotation. However, they are subject to certain restrictions in industry production due to large dosage and high cost. Therefore, 2-(2-(hydroxycarbamoyl)phenoxy)acetic acid (HCPAA) was synthesized as a novel collector of cassiterite in the study. It exhibited excellent selectivity and collection ability in flotation separation between cassiterite and quartz. The adsorption tests proved that the adsorption capacity of HCPAA on cassiterite surface was greater than that on quartz surface. Zeta potential studies indicated that HCPAA effectively reduced the surface potential of cassiterite. The contact angle tests showed that HCPAA greatly improved hydrophobicity of cassiterite. Infrared spectroscopy and XPS demonstrated that HCPAA was attached to the surface of cassiterite by chemisorption, while it was adsorbed on the surface of quartz by physisorption. This study provides a theoretical basis for the efficient separation of cassiterite from quartz. [Display omitted] •2-(2-(Hydroxycarbamoyl)phenoxy)acetic acid was synthesized as a novel collector of cassiterite.•HCPAA exhibited excellent selectivity and collection ability in the flotation separation of cassiterite and quartz.•HCPAA was attached to surfaces of cassiterite and quartz by chemisorption and physisorption, respectively.•The O atom in –OH in HCPAA structure bonded with the Sn atom on cassiterite surface.
AbstractList Fine-grained cassiterite usually was recovered by flotation technology. Salicylhydroxamic acid and benzhydroxamic acid are widely used as collectors in the cassiterite flotation. However, they are subject to certain restrictions in industry production due to large dosage and high cost. Therefore, 2-(2-(hydroxycarbamoyl)phenoxy)acetic acid (HCPAA) was synthesized as a novel collector of cassiterite in the study. It exhibited excellent selectivity and collection ability in flotation separation between cassiterite and quartz. The adsorption tests proved that the adsorption capacity of HCPAA on cassiterite surface was greater than that on quartz surface. Zeta potential studies indicated that HCPAA effectively reduced the surface potential of cassiterite. The contact angle tests showed that HCPAA greatly improved hydrophobicity of cassiterite. Infrared spectroscopy and XPS demonstrated that HCPAA was attached to the surface of cassiterite by chemisorption, while it was adsorbed on the surface of quartz by physisorption. This study provides a theoretical basis for the efficient separation of cassiterite from quartz. [Display omitted] •2-(2-(Hydroxycarbamoyl)phenoxy)acetic acid was synthesized as a novel collector of cassiterite.•HCPAA exhibited excellent selectivity and collection ability in the flotation separation of cassiterite and quartz.•HCPAA was attached to surfaces of cassiterite and quartz by chemisorption and physisorption, respectively.•The O atom in –OH in HCPAA structure bonded with the Sn atom on cassiterite surface.
ArticleNumber 135294
Author Zhang, Chunli
Qin, Longwei
Lv, Jinfang
Qi, Jing
Qian, Haiyu
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Snippet Fine-grained cassiterite usually was recovered by flotation technology. Salicylhydroxamic acid and benzhydroxamic acid are widely used as collectors in the...
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StartPage 135294
SubjectTerms Cassiterite
Flotation separation
HCPAA
Quartz
Synthetic collector
Title Separation between cassiterite and quartz by a synthesized collector 2-(2-(hydroxycarbamoyl)phenoxy)acetic acid
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