Insights into high-efficient removal of tetracycline by a codoped mesoporous carbon adsorbent

[Display omitted] Adsorbents with simple preparation and high surface area have become increasingly prevalent for the removal of organic contaminants. Herein, a carbon nanoplate codoped by Co and N elements with abundant ordered mesoporous (Co/N-MCs) was applied as an adsorbent for tetracycline remo...

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Published inChinese journal of chemical engineering Vol. 44; no. 4; pp. 148 - 156
Main Authors Chen, Xinyu, Shi, Shuo, Han, Ximei, Li, Min, Nian, Ying, Sun, Jing, Zhang, Wentao, Yue, Tianli, Wang, Jianlong
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2022
College of Food Science and Engineering,Northwest A&F University,Yangling 712100,China%Qinghai Provincial Key Laboratory of Qinghai-Tibet Plateau Biological Resources,Northwest Institute of Plateau Biology,Chinese Academy of Sciences,Xining 810008,China
Subjects
Adsorption
Carbon
Cobalt/nitrogen codoping
Mechanism
Tetracycline
Cobalt/nitrogen codoping
Adsorption
Carbon
Mechanism
Tetracycline
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Abstract [Display omitted] Adsorbents with simple preparation and high surface area have become increasingly prevalent for the removal of organic contaminants. Herein, a carbon nanoplate codoped by Co and N elements with abundant ordered mesoporous (Co/N-MCs) was applied as an adsorbent for tetracycline removal. Taking integrated advantages of ordered mesopores on carbon-based structures and N-doping inducing the strengthened π–π dispersion and generation of pyridinic N, as well as cobaltic nanoparticles embedded in carbon nanoplates, the Co/N-MCs was tailored for high efficiently absorbing tetracycline via π-π interaction, Lewis acid-base interaction, metal complexation and electrostatic attraction. The Co/N-MCs had the advantages of high surface area, porous structure, plenty adsorption sites, and easy separation. As such, the as-prepared Co/N-MCs adsorbents significantly enhanced tetracycline removal performance with a maximum adsorption capacity of 344.83 mg·g−1 at pH 6 and good reusability, which was finally applied to removal tetracycline from tap water sample. Furthermore, the adsorption process towards tetracycline hydrochloride could be well attributed to the pseudo-second-order kinetic and Langmuir isotherm models. Compared with traditional carbon-based adsorbents, it owns a simpler synthesis method and a higher adsorption capacity, as well as it is a promising candidate for water purification.
AbstractList Adsorbents with simple preparation and high surface area have become increasingly prevalent for the removal of organic contaminants.Herein,a carbon nanoplate codoped by Co and N elements with abun-dant ordered mesoporous(Co/N-MCs)was applied as an adsorbent for tetracycline removal.Taking inte-grated advantages of ordered mesopores on carbon-based structures and N-doping inducing the strengthened π-π dispersion and generation of pyridinic N,as well as cobaltic nanoparticles embedded in carbon nanoplates,the Co/N-MCs was tailored for high efficiently absorbing tetracycline via π-π inter-action,Lewis acid-base interaction,metal complexation and electrostatic attraction.The Co/N-MCs had the advantages of high surface area,porous structure,plenty adsorption sites,and easy separation.As such,the as-prepared Co/N-MCs adsorbents significantly enhanced tetracycline removal performance with a maximum adsorption capacity of 344.83 mg·g-1 at pH 6 and good reusability,which was finally applied to removal tetracycline from tap water sample.Furthermore,the adsorption process towards tetracycline hydrochloride could be well attributed to the pseudo-second-order kinetic and Langmuir iso-therm models.Compared with traditional carbon-based adsorbents,it owns a simpler synthesis method and a higher adsorption capacity,as well as it is a promising candidate for water purification.
[Display omitted] Adsorbents with simple preparation and high surface area have become increasingly prevalent for the removal of organic contaminants. Herein, a carbon nanoplate codoped by Co and N elements with abundant ordered mesoporous (Co/N-MCs) was applied as an adsorbent for tetracycline removal. Taking integrated advantages of ordered mesopores on carbon-based structures and N-doping inducing the strengthened π–π dispersion and generation of pyridinic N, as well as cobaltic nanoparticles embedded in carbon nanoplates, the Co/N-MCs was tailored for high efficiently absorbing tetracycline via π-π interaction, Lewis acid-base interaction, metal complexation and electrostatic attraction. The Co/N-MCs had the advantages of high surface area, porous structure, plenty adsorption sites, and easy separation. As such, the as-prepared Co/N-MCs adsorbents significantly enhanced tetracycline removal performance with a maximum adsorption capacity of 344.83 mg·g−1 at pH 6 and good reusability, which was finally applied to removal tetracycline from tap water sample. Furthermore, the adsorption process towards tetracycline hydrochloride could be well attributed to the pseudo-second-order kinetic and Langmuir isotherm models. Compared with traditional carbon-based adsorbents, it owns a simpler synthesis method and a higher adsorption capacity, as well as it is a promising candidate for water purification.
Author Li, Min
Nian, Ying
Yue, Tianli
Wang, Jianlong
Han, Ximei
Sun, Jing
Zhang, Wentao
Chen, Xinyu
Shi, Shuo
AuthorAffiliation College of Food Science and Engineering,Northwest A&F University,Yangling 712100,China%Qinghai Provincial Key Laboratory of Qinghai-Tibet Plateau Biological Resources,Northwest Institute of Plateau Biology,Chinese Academy of Sciences,Xining 810008,China
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Keywords Cobalt/nitrogen codoping
Adsorption
Carbon
Mechanism
Tetracycline
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Snippet [Display omitted] Adsorbents with simple preparation and high surface area have become increasingly prevalent for the removal of organic contaminants. Herein,...
Adsorbents with simple preparation and high surface area have become increasingly prevalent for the removal of organic contaminants.Herein,a carbon nanoplate...
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SubjectTerms Adsorption
Carbon
Cobalt/nitrogen codoping
Mechanism
Tetracycline
Title Insights into high-efficient removal of tetracycline by a codoped mesoporous carbon adsorbent
URI https://dx.doi.org/10.1016/j.cjche.2021.07.023
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