A new ionic liquid–water–organic solvent three phase microextraction for simultaneous preconcentration flavonoids and anthraquinones from traditional Chinese prescription

•Ionic liquid–water–organic solvent three phase microextraction is first introduced.•Flavonoids and anthraquinones were preconcentrated and determined simultaneously.•The method avoids the centrifugal operation.•It is a rapid pretreatment technology for the entire process takes less than 8 min.•The LOQ of the proposed technique is very low.

A novel technique, ionic liquid–water–organic solvent three phase microextraction (ILWOS-3p-ME) was developed and introduced for simultaneous preconcentration and determination of flavonoids and anthraquinones in Chinese herbal formula and its preparations. This technique was performed in one step by using a syringe. High performance liquid chromatography with an UV-detector (HPLC/UV) was subsequently conducted. Two solvents with different densities (organic solvent and ionic liquid with densities less than and higher than water, respectively) were separately placed in a syringe, which was used as an extraction device. A cloudy emulsion was formed by manually shaking the syringe. The mixture was allowed to stand for several minutes; afterward, the emulsion readily separated into three phases: an upper organic solvent extraction phase; a middle aqueous sample phase; and a lower ionic liquid extraction phase. Both the upper and lower layers were transferred to a small Eppendorf (EP) tube. Conducting ILWOS-3P-ME with HPLC/UV, we simultaneously determined the bioactive components of flavonoids and anthraquinones in traditional Chinese medicine. ILWOS-3P-ME is a simple, rapid, practical, and effective method to extract and preconcentrate of different types of trace bioactive components from traditional Chinese medicine simultaneously.

Graphical abstract(A) Sample solution was placed in a syringe. (B) 100 μL of heptanol and 100 μL of [C6MIM][PF6] were injected separately into the sample solution by a syringe. (C) An emulsion was formed. (D) The phases separated after the mixture was allowed to settle for 3 min. (E) The syringe plunger was pressed upward, and the upper phase was collected in a small EP tube. (F) Turning the syringe downward, the lower phase was collected in the same EP tube by pressing the plunger slightly.Figure optionsDownload full-size imageDownload as PowerPoint slide