Ball-milling assisted fabrication of hierarchical Na4Ti5O12/Na2Ti6O13 for enhanced tetracyclines photodegradation

Successful techniques for the evacuation of antibiotics are of colossal importance and profoundly attractive for satisfying the squeezing need for ecological remediation. Sodium titanates (NTO) as alluring inorganic materials for different applications because of their extraordinary physicochemical...

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Published inColloids and surfaces. A, Physicochemical and engineering aspects Vol. 650; p. 129598
Main Authors Li, Ping, Lv, Ying, Chen, Xuelian, Li, Xiangjuan, Xie, Jianfeng, Zheng, Jialu
Format Journal Article
LanguageEnglish
Published Elsevier B.V 05.10.2022
Subjects
Antibiotics degradation
chlortetracycline
dyes
heat treatment
mineralization
oxytetracycline
Photocatalysis
photocatalysts
photolysis
remediation
sodium
Sodium titanium
tetracycline
Antibiotics degradation
Sodium titanium
Photocatalysis
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Abstract Successful techniques for the evacuation of antibiotics are of colossal importance and profoundly attractive for satisfying the squeezing need for ecological remediation. Sodium titanates (NTO) as alluring inorganic materials for different applications because of their extraordinary physicochemical properties and low-cost. In this work, we demonstrated the utilization of NTO as photocatalysts, which are acquired by means of a ball-milling assisted heat treatment approach. A regular organic dye, methylene orange (MO), was utilized to examine the photodegradation properties of NTOs. The as-orchestrated Na4Ti5O12/Na2Ti6O13 displayed the greatest mineralization of MO. Particularly, the Na4Ti5O12/Na2Ti6O13 photocatalyst was used to degrade three tetracyclines with the degradation efficiency of tetracycline (TC), chlortetracycline (CTC) and oxytetracycline (OTC) were 80.78 %, 90.39 % and 75.60 %, respectively. In-depth experimental and DFT investigation proved that the relatively narrow bandgap of Na4Ti5O12 induced effective transformation of photo-excited electrons, thus reduced combination of carriers. Moreover, the heterojunction of Na4Ti5O12/Na2Ti6O13 induced the generation of active radicals and transport of carriers are proposed as advantages for the mineralization of three antibiotics. [Display omitted] •Sodium titanates materials were prepared by ball-milling assisted calcination process.•Systematic comparison of different calcination temperatures on phase composition and photocatalytic performance.•Na4Ti5O12/Na2Ti6O13 was formed by calcined at 700 °C has the highest photocatalytic activity.•Mineralization mechanism of three tetracycline antibiotics were explored.
AbstractList Successful techniques for the evacuation of antibiotics are of colossal importance and profoundly attractive for satisfying the squeezing need for ecological remediation. Sodium titanates (NTO) as alluring inorganic materials for different applications because of their extraordinary physicochemical properties and low-cost. In this work, we demonstrated the utilization of NTO as photocatalysts, which are acquired by means of a ball-milling assisted heat treatment approach. A regular organic dye, methylene orange (MO), was utilized to examine the photodegradation properties of NTOs. The as-orchestrated Na₄Ti₅O₁₂/Na₂Ti₆O₁₃ displayed the greatest mineralization of MO. Particularly, the Na₄Ti₅O₁₂/Na₂Ti₆O₁₃ photocatalyst was used to degrade three tetracyclines with the degradation efficiency of tetracycline (TC), chlortetracycline (CTC) and oxytetracycline (OTC) were 80.78 %, 90.39 % and 75.60 %, respectively. In-depth experimental and DFT investigation proved that the relatively narrow bandgap of Na₄Ti₅O₁₂ induced effective transformation of photo-excited electrons, thus reduced combination of carriers. Moreover, the heterojunction of Na₄Ti₅O₁₂/Na₂Ti₆O₁₃ induced the generation of active radicals and transport of carriers are proposed as advantages for the mineralization of three antibiotics.
Successful techniques for the evacuation of antibiotics are of colossal importance and profoundly attractive for satisfying the squeezing need for ecological remediation. Sodium titanates (NTO) as alluring inorganic materials for different applications because of their extraordinary physicochemical properties and low-cost. In this work, we demonstrated the utilization of NTO as photocatalysts, which are acquired by means of a ball-milling assisted heat treatment approach. A regular organic dye, methylene orange (MO), was utilized to examine the photodegradation properties of NTOs. The as-orchestrated Na4Ti5O12/Na2Ti6O13 displayed the greatest mineralization of MO. Particularly, the Na4Ti5O12/Na2Ti6O13 photocatalyst was used to degrade three tetracyclines with the degradation efficiency of tetracycline (TC), chlortetracycline (CTC) and oxytetracycline (OTC) were 80.78 %, 90.39 % and 75.60 %, respectively. In-depth experimental and DFT investigation proved that the relatively narrow bandgap of Na4Ti5O12 induced effective transformation of photo-excited electrons, thus reduced combination of carriers. Moreover, the heterojunction of Na4Ti5O12/Na2Ti6O13 induced the generation of active radicals and transport of carriers are proposed as advantages for the mineralization of three antibiotics. [Display omitted] •Sodium titanates materials were prepared by ball-milling assisted calcination process.•Systematic comparison of different calcination temperatures on phase composition and photocatalytic performance.•Na4Ti5O12/Na2Ti6O13 was formed by calcined at 700 °C has the highest photocatalytic activity.•Mineralization mechanism of three tetracycline antibiotics were explored.
ArticleNumber 129598
Author Li, Xiangjuan
Xie, Jianfeng
Chen, Xuelian
Lv, Ying
Li, Ping
Zheng, Jialu
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Snippet Successful techniques for the evacuation of antibiotics are of colossal importance and profoundly attractive for satisfying the squeezing need for ecological...
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StartPage 129598
SubjectTerms Antibiotics degradation
chlortetracycline
dyes
heat treatment
mineralization
oxytetracycline
Photocatalysis
photocatalysts
photolysis
remediation
sodium
Sodium titanium
tetracycline
Title Ball-milling assisted fabrication of hierarchical Na4Ti5O12/Na2Ti6O13 for enhanced tetracyclines photodegradation
URI https://dx.doi.org/10.1016/j.colsurfa.2022.129598
https://www.proquest.com/docview/2718288239
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