SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4309605401> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W4309605401 endingPage "1084" @default.
W4309605401 startingPage "1084" @default.
W4309605401 abstract "Anthocyanins are water-soluble pigments characterized by various intense colors found in fruits and vegetables. Scientific studies have shown growing evidence to support their health benefits. Therefore, estimating the anthocyanin content in food is essential to identify the ideal analytical method. Moreover, due to the instability of plant anthocyanins, it is important to select and optimize their extraction, separation and qualitative and quantitative analysis, steps that are indispensable and important in their study. The present article reviews the latest procedures for extracting anthocyanins from various food matrices and analytical methods for their quantification. Therefore, various forms of preliminary treatments of samples for anthocyanin extraction, extraction procedures for various fruits, vegetables and cereals, purification of samples and quantification of anthocyanins are highlighted and evaluated. Using ultrasound-assisted extraction (UAE) might be effective for anthocyanin extraction and the Amberlite XAD-7HP method is the most effective for purifying anthocyanins. Combining the liquid chromatography (LC) method with electrospray ionization (ESI) and mass spectrometry (MS) or quadrupole time-of-flight (QTOF) with mass spectrometry (MS) better quantifies the anthocyanins in the food complex samples. Therefore, the extraction and separation of anthocyanins and their qualitative and quantitative analyses are essential steps in their research. As a result, the study concentrates on a detailed characterization of various qualitative and quantitative analytical methodologies, while briefly describing the main anthocyanin extraction processes." @default.
W4309605401 created "2022-11-28" @default.
W4309605401 creator A5017130193 @default.
W4309605401 creator A5035990851 @default.
W4309605401 date "2022-11-16" @default.
W4309605401 modified "2023-10-11" @default.
W4309605401 title "Extraction, Quantification and Characterization Techniques for Anthocyanin Compounds in Various Food Matrices—A Review" @default.
W4309605401 cites W1137783791 @default.
W4309605401 cites W1701588647 @default.
W4309605401 cites W1817247427 @default.
W4309605401 cites W1946765051 @default.
W4309605401 cites W1951307843 @default.
W4309605401 cites W1977873829 @default.
W4309605401 cites W1980290620 @default.
W4309605401 cites W1984228202 @default.
W4309605401 cites W1997262054 @default.
W4309605401 cites W2001537646 @default.
W4309605401 cites W2006007310 @default.
W4309605401 cites W2006249598 @default.
W4309605401 cites W2017520661 @default.
W4309605401 cites W2022392908 @default.
W4309605401 cites W2032402946 @default.
W4309605401 cites W2051054328 @default.
W4309605401 cites W2052395291 @default.
W4309605401 cites W2053105926 @default.
W4309605401 cites W2079901704 @default.
W4309605401 cites W2090008802 @default.
W4309605401 cites W2094947208 @default.
W4309605401 cites W2096223538 @default.
W4309605401 cites W2140035458 @default.
W4309605401 cites W2141462478 @default.
W4309605401 cites W2158110186 @default.
W4309605401 cites W2236487316 @default.
W4309605401 cites W2274001604 @default.
W4309605401 cites W2279265565 @default.
W4309605401 cites W2286663861 @default.
W4309605401 cites W2345160546 @default.
W4309605401 cites W2399420206 @default.
W4309605401 cites W2408854170 @default.
W4309605401 cites W2483335158 @default.
W4309605401 cites W2509259964 @default.
W4309605401 cites W2511796762 @default.
W4309605401 cites W2511809193 @default.
W4309605401 cites W2519691041 @default.
W4309605401 cites W2530163908 @default.
W4309605401 cites W2564074776 @default.
W4309605401 cites W2597308909 @default.
W4309605401 cites W2609756170 @default.
W4309605401 cites W2611500738 @default.
W4309605401 cites W2618322024 @default.
W4309605401 cites W2737089571 @default.
W4309605401 cites W2776077005 @default.
W4309605401 cites W2781216574 @default.
W4309605401 cites W2782098174 @default.
W4309605401 cites W2790536936 @default.
W4309605401 cites W2796152713 @default.
W4309605401 cites W2924918204 @default.
W4309605401 cites W2954995047 @default.
W4309605401 cites W2965212988 @default.
W4309605401 cites W2966391835 @default.
W4309605401 cites W2968610846 @default.
W4309605401 cites W2981852356 @default.
W4309605401 cites W2994404910 @default.
W4309605401 cites W2998609088 @default.
W4309605401 cites W3008574140 @default.
W4309605401 cites W3009582148 @default.
W4309605401 cites W3026902763 @default.
W4309605401 cites W3027190317 @default.
W4309605401 cites W3031627843 @default.
W4309605401 cites W3039496215 @default.
W4309605401 cites W3045935398 @default.
W4309605401 cites W3048293065 @default.
W4309605401 cites W3049097248 @default.
W4309605401 cites W3086396672 @default.
W4309605401 cites W3087669802 @default.
W4309605401 cites W3153979335 @default.
W4309605401 cites W3161849533 @default.
W4309605401 cites W3164768200 @default.
W4309605401 cites W3171930718 @default.
W4309605401 cites W3177174594 @default.
W4309605401 cites W3178488218 @default.
W4309605401 cites W3196073653 @default.
W4309605401 cites W3196226334 @default.
W4309605401 cites W3210404543 @default.
W4309605401 cites W4205606109 @default.
W4309605401 cites W4206384798 @default.
W4309605401 cites W4210642708 @default.
W4309605401 cites W4210981162 @default.
W4309605401 cites W4223595064 @default.
W4309605401 cites W4223637599 @default.
W4309605401 cites W4226093162 @default.
W4309605401 cites W4280576406 @default.
W4309605401 cites W4283816543 @default.
W4309605401 cites W962319377 @default.
W4309605401 doi "https://doi.org/10.3390/horticulturae8111084" @default.
W4309605401 hasPublicationYear "2022" @default.
W4309605401 type Work @default.
W4309605401 citedByCount "4" @default.