• Title of article

    Sequential Microwave-assisted Extraction for Isolation of Quercetin from Red Kidney Bean

  • Author/Authors

    Aghajanian, S. School of pharmacy - Islamic Azad University of Amol, Amol, Iran , kazemi, S. Cellular and Molecular Biology Research Center - Health Research Institute - Babol University of Medical Sciences, Babol, Iran , Esmaeili, S. School of pharmacy - Islamic Azad University of Amol, Amol, Iran , Aghajanian, S. School of Engineering Science - LUT University, Lappeeranta Finland , Moghadamnia, A.A. Cellular and Molecular Biology Research Center - Health Research Institute - Babol University of Medical Sciences, Babol, Iran

  • Pages
    6
  • From page
    12
  • To page
    17
  • Abstract
    Quercetin is a biological flavonoid, which can be found in red kidney bean at high concentration. In this study, a comparison was conducted between traditional and modern extraction methods. Sequential microwave-assisted extraction was used for isolation of quercetin from red kidney bean. The effect of several factors such as particle size of grinded kidney bean, extraction solvent, microwave power and extraction time on the extraction yield of quercetin was considered. To analyze the quercetin, HPLC method was developed. The highest extraction efficiency was obtained (35.8 mg quercetin /g kidney bean) when 60 w/w% acetone used as the solvent. In addition, the solvent to solid ratio was 10:1 and the irradiation power of 800W was applied for the experiment duration of 1 min. Acquired extraction yield according to the current method was higher than extracted quercetin from soxhlet (24.6 mg quercetin /g kidney bean) and maceration (32.75 mg quercetin /g kidney bean). In the present study, quercetin was successfully extracted from kidney bean by microwave-assisted extraction. Quercetin structure remains intact and can be used to produce therapeutic compounds.
  • Keywords
    Kidney Bean , Flavonoid , Maceration , Microwave Extraction , Purification
  • Journal title
    International Journal of Engineering
  • Serial Year
    2020
  • Record number

    2552795