Preparation of a phenylboronic acid and aldehyde bi-functional group modified silica absorbent and applications in removing Cr(vi) and reducing to Cr(iii)

Cr(vi) is a great threat to the ecological environment and human health, so it is urgent to remove Cr(vi) from the environment. In this study, a novel silica gel adsorbent SiO(2)–CHO–APBA containing phenylboronic acids and aldehyde groups was prepared, evaluated and applied for removing Cr(vi) from...

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Autores principales: Song, Qianyi, Cheng, Mengqi, Liu, Hongxu, Jia, Haijiao, Nan, Yaqin, Zheng, Wenqing, Li, Youxin, Bao, James J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2023
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10203862/
https://www.ncbi.nlm.nih.gov/pubmed/37228677
http://dx.doi.org/10.1039/d3ra02009f
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author Song, Qianyi
Cheng, Mengqi
Liu, Hongxu
Jia, Haijiao
Nan, Yaqin
Zheng, Wenqing
Li, Youxin
Bao, James J.
author_facet Song, Qianyi
Cheng, Mengqi
Liu, Hongxu
Jia, Haijiao
Nan, Yaqin
Zheng, Wenqing
Li, Youxin
Bao, James J.
author_sort Song, Qianyi
collection PubMed
description Cr(vi) is a great threat to the ecological environment and human health, so it is urgent to remove Cr(vi) from the environment. In this study, a novel silica gel adsorbent SiO(2)–CHO–APBA containing phenylboronic acids and aldehyde groups was prepared, evaluated and applied for removing Cr(vi) from water and soil samples. The adsorption conditions including pH, adsorbent dosage, initial concentration of Cr(vi), temperature and time were optimized. Its ability in removing Cr(vi) was investigated and compared with three other common adsorbents, SiO(2)–NH(2), SiO(2)–SH and SiO(2)–EDTA. Data showed SiO(2)–CHO–APBA had the highest adsorption capacity of 58.14 mg g(−1) at pH 2 and could reach adsorption equilibrium in about 3 h. When 50 mg SiO(2)–CHO–APBA was added in 20 mL of 50 mg L(−1) Cr(vi) solution, more than 97% of Cr(vi) was removed. A mechanism study revealed that a cooperative interaction of both the aldehyde and boronic acid groups is attributed to Cr(vi) removal. The reducing function was gradually weakened with the consumption of the aldehyde group, which was oxidized to a carboxyl group by Cr(vi). This SiO(2)–CHO–APBA adsorbent was successfully used for the removal of Cr(vi) from soil samples with satisfactory results which indicates a good potential in agriculture and other fields.
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spelling pubmed-102038622023-05-24 Preparation of a phenylboronic acid and aldehyde bi-functional group modified silica absorbent and applications in removing Cr(vi) and reducing to Cr(iii) Song, Qianyi Cheng, Mengqi Liu, Hongxu Jia, Haijiao Nan, Yaqin Zheng, Wenqing Li, Youxin Bao, James J. RSC Adv Chemistry Cr(vi) is a great threat to the ecological environment and human health, so it is urgent to remove Cr(vi) from the environment. In this study, a novel silica gel adsorbent SiO(2)–CHO–APBA containing phenylboronic acids and aldehyde groups was prepared, evaluated and applied for removing Cr(vi) from water and soil samples. The adsorption conditions including pH, adsorbent dosage, initial concentration of Cr(vi), temperature and time were optimized. Its ability in removing Cr(vi) was investigated and compared with three other common adsorbents, SiO(2)–NH(2), SiO(2)–SH and SiO(2)–EDTA. Data showed SiO(2)–CHO–APBA had the highest adsorption capacity of 58.14 mg g(−1) at pH 2 and could reach adsorption equilibrium in about 3 h. When 50 mg SiO(2)–CHO–APBA was added in 20 mL of 50 mg L(−1) Cr(vi) solution, more than 97% of Cr(vi) was removed. A mechanism study revealed that a cooperative interaction of both the aldehyde and boronic acid groups is attributed to Cr(vi) removal. The reducing function was gradually weakened with the consumption of the aldehyde group, which was oxidized to a carboxyl group by Cr(vi). This SiO(2)–CHO–APBA adsorbent was successfully used for the removal of Cr(vi) from soil samples with satisfactory results which indicates a good potential in agriculture and other fields. The Royal Society of Chemistry 2023-05-23 /pmc/articles/PMC10203862/ /pubmed/37228677 http://dx.doi.org/10.1039/d3ra02009f Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Song, Qianyi
Cheng, Mengqi
Liu, Hongxu
Jia, Haijiao
Nan, Yaqin
Zheng, Wenqing
Li, Youxin
Bao, James J.
Preparation of a phenylboronic acid and aldehyde bi-functional group modified silica absorbent and applications in removing Cr(vi) and reducing to Cr(iii)
title Preparation of a phenylboronic acid and aldehyde bi-functional group modified silica absorbent and applications in removing Cr(vi) and reducing to Cr(iii)
title_full Preparation of a phenylboronic acid and aldehyde bi-functional group modified silica absorbent and applications in removing Cr(vi) and reducing to Cr(iii)
title_fullStr Preparation of a phenylboronic acid and aldehyde bi-functional group modified silica absorbent and applications in removing Cr(vi) and reducing to Cr(iii)
title_full_unstemmed Preparation of a phenylboronic acid and aldehyde bi-functional group modified silica absorbent and applications in removing Cr(vi) and reducing to Cr(iii)
title_short Preparation of a phenylboronic acid and aldehyde bi-functional group modified silica absorbent and applications in removing Cr(vi) and reducing to Cr(iii)
title_sort preparation of a phenylboronic acid and aldehyde bi-functional group modified silica absorbent and applications in removing cr(vi) and reducing to cr(iii)
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10203862/
https://www.ncbi.nlm.nih.gov/pubmed/37228677
http://dx.doi.org/10.1039/d3ra02009f
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