CF, microfluidics and 96 well LPME reviews and key application papers
| Recent LPME techniques | Subject | Author(s) | Year | References |
|---|---|---|---|---|
| Reviews | LPME and EME in microfluidic devices | Ramos-Payán | 2019 | [188] |
| Flow based methods and applications in chemical analysis | Tomofeeva et al. | 2021 | [189] | |
| Nanofluidic devices for biological analyses | Yamamoto et al. | 2021 | [190] | |
| Conductive vial EME | Schüller et al. | 2023 | [191] | |
| Microfluidic devices in sample extraction overview | Alidoust et al. | 2021 | [192] | |
| Lab-on-a-chip systems in molecular diagnosis | Cunha et al. | 2022 | [193] | |
| EME with microfluidic devices | Hansen et al. | 2022 | [194] | |
| Key application papers | MIL-DI-SDME with 96 well device | Mafra et al. | 2021 | [195] |
| NADES-SLM-SDME, HF-LPME 96 well system | Morelli et al. | 2020 | [196] | |
| SLM-SDME, HF-LPME 96 well system | Lopes et al. | 2022 | [197] | |
| Automated DES-VA-DLLME, 96 well system | Ju et al. | 2023 | [198] | |
| 3-Phase HF-LPME 96 well system, extraction time | Schüller et al. | 2022 | [199] | |
| Microfluidic, microextraction and analysis on a chip | Santigosa-Marillo et al. | 2023 | [200] | |
| EME, microfluidic system, derivatization, HPLC/UV, biogenic amines, food | Zarghgampour et al. | 2018 | [201] |
LPME: liquid phase microextraction; EME: electromembrane extraction; MIL: magnetic ionic liquid; DI: direct immersion; SDME: single drop microextraction; NADES: natural deep eutectic solvent; SLM: supported liquid membrane; HF-LPME: hollow fiber liquid phase microextraction; DES: deep eutectic solvent; VA: vortex assisted; DLLME: dispersive liquid-liquid microextraction HPLC: high performance liquid chromatography; UV: ultraviolet