Fabrication of ultra-stable boronic acid-functionalized quinoline-linked COF for selective adsorption of quercetin

Quercetin, a flavonoid with cis-diol moiety, is widely found in plants and exhibits significant pharmacological properties, including anti-inflammatory, antioxidant, and anti-tumor activities. Efficient adsorption and separation of quercetin from complex matrices are crucial for advancing health and...

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Veröffentlicht in:Analytica chimica acta Jg. 1367; S. 344286
Hauptverfasser: Li, Wenhao, Zou, Ting, Wang, Ziyi, Zhang, Yuanyuan, Zhang, Juan
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Netherlands Elsevier B.V 15.09.2025
Schlagworte:
Adsorption
Boronate affinity
Boronic Acids - chemistry
Metal-Organic Frameworks - chemical synthesis
Metal-Organic Frameworks - chemistry
Quercetin
Quercetin - analysis
Quercetin - chemistry
Quercetin - isolation & purification
Quinoline-linked COF
Quinolines - chemistry
Tea
Tea
Adsorption
Boronate affinity
Quinoline-linked COF
Quercetin
ISSN:0003-2670, 1873-4324, 1873-4324
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Abstract Quercetin, a flavonoid with cis-diol moiety, is widely found in plants and exhibits significant pharmacological properties, including anti-inflammatory, antioxidant, and anti-tumor activities. Efficient adsorption and separation of quercetin from complex matrices are crucial for advancing health and nutrition research. However, the structural diversity of flavonoids poses challenges for their selective separation. Covalent organic frameworks (COFs) have emerged as promising adsorbents due to their high surface area and adsorption performance. However, most imine-linked COFs suffer from poor chemical stability under harsh conditions. There is a need for developing highly stable COFs with selective adsorption capabilities for quercetin and other cis-diol-containing compounds. A post-synthetic modification strategy was employed to convert COF-366 into a highly stable quinoline-linked boronic acid-functionalized COF (named COF-366-BA) via the aza-Diels-Alder reaction. COF-366-BA exhibited enhanced chemical and thermal stability, withstanding strong acidic and alkaline conditions. Characterization revealed a high specific surface area and excellent crystallinity. After functionalization with BA, COF-366-BA demonstrated superior selective adsorption performance for cis-diol-containing quercetin, adenosine, and naringin, with adsorption mechanisms involving boron affinity, π-π interactions, hydrogen bonding, and hydrophobic effects. Adsorption kinetics, isotherms, and thermodynamics were thoroughly investigated. A DSPE-HPLC method using COF-366-BA as an adsorbent was developed for the selective enrichment and detection of quercetin in black tea. Green metric evaluations including GAPI, Complex GAPI, AGREE, and AGREEprep confirmed the method's eco-friendliness. This work presents a significant advancement in the design of highly stable and functional COFs for selective adsorption cis-diol-containing compounds. COF-366-BA's robustness and selectivity make it a promising material for the enrichment and detection of cis-diols structural bioactive compounds in complex matrices. The green synthesis approach and practical application of quercetin detection in food and biological samples hold a significant importance in the health and nutrition fields. [Display omitted] •Boronic acid functionalized COF was fabricated via post-modification.•COF-366-BA exhibited good stability under harsh environments.•Adsorption involved boron affinity and multi-interactions, enabling selective quercetin capture.•GAPI, Complex GAPI, AGREE, and AGREEprep assessed method's environmental sustainability.•COF-366-BA-based DSPE-HPLC method enriched quercetin in black tea.
AbstractList Quercetin, a flavonoid with cis-diol moiety, is widely found in plants and exhibits significant pharmacological properties, including anti-inflammatory, antioxidant, and anti-tumor activities. Efficient adsorption and separation of quercetin from complex matrices are crucial for advancing health and nutrition research. However, the structural diversity of flavonoids poses challenges for their selective separation. Covalent organic frameworks (COFs) have emerged as promising adsorbents due to their high surface area and adsorption performance. However, most imine-linked COFs suffer from poor chemical stability under harsh conditions. There is a need for developing highly stable COFs with selective adsorption capabilities for quercetin and other cis-diol-containing compounds. A post-synthetic modification strategy was employed to convert COF-366 into a highly stable quinoline-linked boronic acid-functionalized COF (named COF-366-BA) via the aza-Diels-Alder reaction. COF-366-BA exhibited enhanced chemical and thermal stability, withstanding strong acidic and alkaline conditions. Characterization revealed a high specific surface area and excellent crystallinity. After functionalization with BA, COF-366-BA demonstrated superior selective adsorption performance for cis-diol-containing quercetin, adenosine, and naringin, with adsorption mechanisms involving boron affinity, π-π interactions, hydrogen bonding, and hydrophobic effects. Adsorption kinetics, isotherms, and thermodynamics were thoroughly investigated. A DSPE-HPLC method using COF-366-BA as an adsorbent was developed for the selective enrichment and detection of quercetin in black tea. Green metric evaluations including GAPI, Complex GAPI, AGREE, and AGREEprep confirmed the method's eco-friendliness. This work presents a significant advancement in the design of highly stable and functional COFs for selective adsorption cis-diol-containing compounds. COF-366-BA's robustness and selectivity make it a promising material for the enrichment and detection of cis-diols structural bioactive compounds in complex matrices. The green synthesis approach and practical application of quercetin detection in food and biological samples hold a significant importance in the health and nutrition fields. [Display omitted] •Boronic acid functionalized COF was fabricated via post-modification.•COF-366-BA exhibited good stability under harsh environments.•Adsorption involved boron affinity and multi-interactions, enabling selective quercetin capture.•GAPI, Complex GAPI, AGREE, and AGREEprep assessed method's environmental sustainability.•COF-366-BA-based DSPE-HPLC method enriched quercetin in black tea.
Quercetin, a flavonoid with cis-diol moiety, is widely found in plants and exhibits significant pharmacological properties, including anti-inflammatory, antioxidant, and anti-tumor activities. Efficient adsorption and separation of quercetin from complex matrices are crucial for advancing health and nutrition research. However, the structural diversity of flavonoids poses challenges for their selective separation. Covalent organic frameworks (COFs) have emerged as promising adsorbents due to their high surface area and adsorption performance. However, most imine-linked COFs suffer from poor chemical stability under harsh conditions. There is a need for developing highly stable COFs with selective adsorption capabilities for quercetin and other cis-diol-containing compounds. A post-synthetic modification strategy was employed to convert COF-366 into a highly stable quinoline-linked boronic acid-functionalized COF (named COF-366-BA) via the aza-Diels-Alder reaction. COF-366-BA exhibited enhanced chemical and thermal stability, withstanding strong acidic and alkaline conditions. Characterization revealed a high specific surface area and excellent crystallinity. After functionalization with BA, COF-366-BA demonstrated superior selective adsorption performance for cis-diol-containing quercetin, adenosine, and naringin, with adsorption mechanisms involving boron affinity, π-π interactions, hydrogen bonding, and hydrophobic effects. Adsorption kinetics, isotherms, and thermodynamics were thoroughly investigated. A DSPE-HPLC method using COF-366-BA as an adsorbent was developed for the selective enrichment and detection of quercetin in black tea. Green metric evaluations including GAPI, Complex GAPI, AGREE, and AGREEprep confirmed the method's eco-friendliness. This work presents a significant advancement in the design of highly stable and functional COFs for selective adsorption cis-diol-containing compounds. COF-366-BA's robustness and selectivity make it a promising material for the enrichment and detection of cis-diols structural bioactive compounds in complex matrices. The green synthesis approach and practical application of quercetin detection in food and biological samples hold a significant importance in the health and nutrition fields.
Quercetin, a flavonoid with cis-diol moiety, is widely found in plants and exhibits significant pharmacological properties, including anti-inflammatory, antioxidant, and anti-tumor activities. Efficient adsorption and separation of quercetin from complex matrices are crucial for advancing health and nutrition research. However, the structural diversity of flavonoids poses challenges for their selective separation. Covalent organic frameworks (COFs) have emerged as promising adsorbents due to their high surface area and adsorption performance. However, most imine-linked COFs suffer from poor chemical stability under harsh conditions. There is a need for developing highly stable COFs with selective adsorption capabilities for quercetin and other cis-diol-containing compounds.BACKGROUNDQuercetin, a flavonoid with cis-diol moiety, is widely found in plants and exhibits significant pharmacological properties, including anti-inflammatory, antioxidant, and anti-tumor activities. Efficient adsorption and separation of quercetin from complex matrices are crucial for advancing health and nutrition research. However, the structural diversity of flavonoids poses challenges for their selective separation. Covalent organic frameworks (COFs) have emerged as promising adsorbents due to their high surface area and adsorption performance. However, most imine-linked COFs suffer from poor chemical stability under harsh conditions. There is a need for developing highly stable COFs with selective adsorption capabilities for quercetin and other cis-diol-containing compounds.A post-synthetic modification strategy was employed to convert COF-366 into a highly stable quinoline-linked boronic acid-functionalized COF (named COF-366-BA) via the aza-Diels-Alder reaction. COF-366-BA exhibited enhanced chemical and thermal stability, withstanding strong acidic and alkaline conditions. Characterization revealed a high specific surface area and excellent crystallinity. After functionalization with BA, COF-366-BA demonstrated superior selective adsorption performance for cis-diol-containing quercetin, adenosine, and naringin, with adsorption mechanisms involving boron affinity, π-π interactions, hydrogen bonding, and hydrophobic effects. Adsorption kinetics, isotherms, and thermodynamics were thoroughly investigated. A DSPE-HPLC method using COF-366-BA as an adsorbent was developed for the selective enrichment and detection of quercetin in black tea. Green metric evaluations including GAPI, Complex GAPI, AGREE, and AGREEprep confirmed the method's eco-friendliness.RESULTSA post-synthetic modification strategy was employed to convert COF-366 into a highly stable quinoline-linked boronic acid-functionalized COF (named COF-366-BA) via the aza-Diels-Alder reaction. COF-366-BA exhibited enhanced chemical and thermal stability, withstanding strong acidic and alkaline conditions. Characterization revealed a high specific surface area and excellent crystallinity. After functionalization with BA, COF-366-BA demonstrated superior selective adsorption performance for cis-diol-containing quercetin, adenosine, and naringin, with adsorption mechanisms involving boron affinity, π-π interactions, hydrogen bonding, and hydrophobic effects. Adsorption kinetics, isotherms, and thermodynamics were thoroughly investigated. A DSPE-HPLC method using COF-366-BA as an adsorbent was developed for the selective enrichment and detection of quercetin in black tea. Green metric evaluations including GAPI, Complex GAPI, AGREE, and AGREEprep confirmed the method's eco-friendliness.This work presents a significant advancement in the design of highly stable and functional COFs for selective adsorption cis-diol-containing compounds. COF-366-BA's robustness and selectivity make it a promising material for the enrichment and detection of cis-diols structural bioactive compounds in complex matrices. The green synthesis approach and practical application of quercetin detection in food and biological samples hold a significant importance in the health and nutrition fields.SIGNIFICANCEThis work presents a significant advancement in the design of highly stable and functional COFs for selective adsorption cis-diol-containing compounds. COF-366-BA's robustness and selectivity make it a promising material for the enrichment and detection of cis-diols structural bioactive compounds in complex matrices. The green synthesis approach and practical application of quercetin detection in food and biological samples hold a significant importance in the health and nutrition fields.
ArticleNumber 344286
Author Zou, Ting
Zhang, Juan
Li, Wenhao
Zhang, Yuanyuan
Wang, Ziyi
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  surname: Li
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  surname: Zhang
  fullname: Zhang, Juan
  email: zhang_juan@wit.edu.cn
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Keywords Tea
Adsorption
Boronate affinity
Quinoline-linked COF
Quercetin
Language English
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Snippet Quercetin, a flavonoid with cis-diol moiety, is widely found in plants and exhibits significant pharmacological properties, including anti-inflammatory,...
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SubjectTerms Adsorption
Boronate affinity
Boronic Acids - chemistry
Metal-Organic Frameworks - chemical synthesis
Metal-Organic Frameworks - chemistry
Quercetin
Quercetin - analysis
Quercetin - chemistry
Quercetin - isolation & purification
Quinoline-linked COF
Quinolines - chemistry
Tea
Title Fabrication of ultra-stable boronic acid-functionalized quinoline-linked COF for selective adsorption of quercetin
URI https://dx.doi.org/10.1016/j.aca.2025.344286
https://www.ncbi.nlm.nih.gov/pubmed/40610140
https://www.proquest.com/docview/3227055087
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