Development of magnetism‐assisted in‐tube solid phase microextraction of phenolic acids in fruit juices prior to high‐performance liquid chromatography quantification

Chen, Hexun; Song, Xiaochong; Huang, Xiaojia

doi:10.1002/jssc.202100473

Cited by 8 publications

(5 citation statements)

References 36 publications

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“…The analytical features of the proposed HRFF-LPME were compared with those of previously reported methods [25][26][27][28][29][30][31][32][33][34][35][36] for the analysis of cinnamic acid derivatives in dif-ferent sample matrices. It can be seen in Table S4, that the amount of extractant required in the proposed approach is lower than that of other studies except hollow fiber liquid phase microextraction [28,29] and magnetic solid phase extraction based on layered double hydroxide coated MNPs [34].…”

Section: Comparison With Other Related Methodsmentioning

confidence: 99%

Hydroxyl‐rich ferrofluid for efficient liquid phase microextraction of cinnamic acid derivatives in traditional Chinese medicine

Wang,

Zhang,

Meng

et al. 2024

J of Separation Science

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In this study, a hydroxyl‐rich ferrofluid was prepared by dispersing silica‐coated magnetic nanoparticles into a methyltrioctylammonium chloride‐glycerol deep eutectic solvent and then employed in the preconcentration of trace‐level of cinnamic acid derivatives (caffeic acid, p‐hydroxycinnamic acid, ferulic acid, and cinnamic acid) in traditional Chinese medicine prior to high‐performance liquid chromatography analysis. The structures of the synthesized materials were characterized by X‐ray diffraction and infrared spectroscopy. The experimental parameters affecting the extraction performance, such as deep eutectic solvent composition, dosage of ferrofluid, pH of aqueous sample solution, salt concentration, extraction time, type, and volume of desorption solvent, were studied and optimized. Under the optimum conditions, the enrichment factors of four cinnamic acid derivatives were in the range of 107–114. Low detection limits (0.2–0.9 ng/mL), good precisions (relative standard deviations 1.2%–9.5%), and satisfactory recoveries (96.0%–104.7%) were achieved. Subsequently, the possible microextraction mechanism of the proposed method was explored and elucidated. It showed that the prepared ferrofluid is easily dispersed in the aqueous sample and achieved recovery after the extraction. The developed approach is a simple, convenient, and efficient method for preconcentration and determination of cinnamic acid derivatives in complex matrices.

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Section: Comparison With Other Related Methodsmentioning

confidence: 99%

Hydroxyl‐rich ferrofluid for efficient liquid phase microextraction of cinnamic acid derivatives in traditional Chinese medicine

Wang,

Zhang,

Meng

et al. 2024

J of Separation Science

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“…Increased the analyte extraction efficiency from 44.9-64.0% to 78.6-87.1% [86] RP-HPLC Has good linearity and precision and can be used for commercial characterization [87] Capillary electrophoresis Hydrochloric acid concentration, 2 mol•L −1 ; temperature, 80 • C; and time 30 min; is a green extraction detection method [88] UHPLC-DAD-ESI-QTOF-MS + UHPLC-DAD Quantifies and characterizes phenolic compounds other than anthocyanins in blueberry juice and fermented wine [89] HPLC is utilized for the quantitative analysis of phenolic acids in plants. The strategy depends on the chemical characteristics of pre-detection components, extraction methods, particle size, storage time, and conditions.…”

Section: Anthocyaninmentioning

confidence: 99%

“…Water, methanol, and acetonitrile are the most common constituents of mobile phase systems, and modifiers, such as formic acid, ammonium acetate, and acetic acid, are sometimes added to prevent peak tailing. Moreover, reversed-phase high performance liquid chromatography (RP-HPLC) also detects phenolic acids, and Padilha, C.V. et al used RP-HPLC to determine phenolic acids in Brazilian grape juice, which had good linearity and precision and was used for commercial characterizations [87].…”

Section: Anthocyaninmentioning

confidence: 99%

The Research Progress of Extraction, Purification and Analysis Methods of Phenolic Compounds from Blueberry: A Comprehensive Review

Bai

Zhou

et al. 2023

Molecules

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Blueberry is the source of a variety of bioactive substances, including phenolic compounds, such as anthocyanins, pterostilbene, phenolic acids, etc. Several studies have revealed that polyphenols in blueberry have important bioactivities in maintaining health, such as antioxidant and anti-tumor activities, immune regulation, the prevention of chronic diseases, etc. Therefore, these phenolic compounds in blueberries have been widely used in the field of healthcare, and the extraction, isolation, and purification of phenolic compounds are the prerequisites for their utilization. It is imperative to systematically review the research progress and prospects of phenolic compounds present in blueberries. Herein, the latest progress in the extraction, purification, and analysis of phenolic compounds from blueberries is reviewed, which can in turn provide a foundation for further research and usage of blueberries.

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“…Chen et al used in-tube solid-phase microextraction for the analysis of five phenolic acids (Figure 9) present in orange juice samples. This involved using in-tube solid-phase microextraction, with subsequent analysis using a HPLC equipped with a DAD [54]. The adsorbent coating on the inside of the capillary consisted of a poly (1-allyl-3-methylimidazolium bis [(trifluoromethyl) sulfonyl] imide-co-ethylene dimethacrylate) polymer embedded with Fe 3 O 4 nanoparticles.…”

Section: Analysis Of Phenolic Acids In Orange Juice Using Smpe and Hplcmentioning

confidence: 99%

Solid-Phase Microextraction Techniques and Application in Food and Horticultural Crops

Agatonovic-Kustrin,

Gegechkori,

Kobakhidze

et al. 2023

Molecules

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Solid-phase microextraction (SPME) is a sample preparation technique which utilizes small amounts of an extraction phase for the extraction of target analytes from investigated sample matrices. Its simplicity of use, relatively short sample processing time, and fiber reusability have made SPME an attractive choice for many analytical applications. SPME has been widely applied to the sampling and analysis of environmental, food, aromatic, metallic, forensic, and pharmaceutical samples. Solid phase microextraction is used in horticultural crops, for example, to determine water and soil contaminants (pesticides, alcohols, phenols, amines, herbicides, etc.). SPME is also used in the food industry to separate biologically active substances in food products for various purposes, for example, disease prevention, determining the smell of food products, and analyzing tastes. SPME has been applied to forensic analysis to determine the alcohol concentration in blood and that of sugar in urine. This method has also been widely used in pharmaceutical analysis. It is a solvent-free sample preparation technique that integrates sampling, isolation, and concentration. This review focuses on recent work on the use of SPME techniques in the analysis of food and horticultural crops.

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Development of magnetism‐assisted in‐tube solid phase microextraction of phenolic acids in fruit juices prior to high‐performance liquid chromatography quantification

Cited by 8 publications

References 36 publications

Hydroxyl‐rich ferrofluid for efficient liquid phase microextraction of cinnamic acid derivatives in traditional Chinese medicine

Hydroxyl‐rich ferrofluid for efficient liquid phase microextraction of cinnamic acid derivatives in traditional Chinese medicine

The Research Progress of Extraction, Purification and Analysis Methods of Phenolic Compounds from Blueberry: A Comprehensive Review

Solid-Phase Microextraction Techniques and Application in Food and Horticultural Crops

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