SDME reviews and application papers

SDMESubjectAuthor(s)YearReferences
SDME modes, reviewsDI-, HS-SDME trendsKokosa2015[105]
DI-, HS-SDMETang et al.2018[106]
HS-SDMEMogaddam et al.2019[107]
DI-SDME for environmental samplesDelove Tegladza et al.2020[108]
DI-, HS-SDMEJain, Verma2020[109]
SDME overview of reviewsDmitrienko et al.2021[110]
DI-SDME mode food applicationsDI-SDME, GC-MS multiclass pesticides in fruitPano-Farias et al.2017[111]
MIL-DSDME, voltametric determination of ascorbic acidJahromi et al.2017[112]
LLLME, UHPLC-MS/MS, patulin in apple joiceLi et al.2018[113]
DI-SDME, GC/ECD acrylamide in foodSaraji, Javadan2019[114]
MIL-DI-SDME HPLC/UV, 96-well device, pesticidesMafra et al.2019[115]
CF-DI-SDME, EDX, Cr, Mn, Ni in vegetable oilsFerreiro et al.2023[116]
HS-SDME mode food applicationsMicrowave distillation, HS-SDME, GC-MS, spicesGholivand et al.2013[117]
HS-SDME, GC-MS, 2-phenoxyethanol anesthetic in fishAbreu et al.2019[118]
DES-HS-SDME, GC-MS, terpenes in spicesTriaux et al.2020[119]
DES solvents in HS-SDME GC-FID, pesticidesAbolghasemi et al.2020[120]
DES solvent HS-SDME GC-MS, PAHs in waterMehravar et al.2020[121]
HS-SDME, LLME, Vis, ammonia in foodsJain et al.2021[122]
CF-HS-SDME, GC-MS, 4-methylimidazole in foodsRafiei Jam et al.2022[123]

SDME: single drop microextraction; DI: direct immersion; HS: headspace; MIL: magnetic ionic liquid; GC-MS: gas chromatography-mass spectrometry; LLLME: liquid-liquid liquid microextraction; UHPLC-MS/MS: ultra-high performance liquid chromatography-tandem mass spectrometry; ECD: electron capture detector; UV: ultraviolet; CF: continuous flow; FID: flame ionization detector; DES: deep eutectic solvent; EDX: energy dispersive X-ray spectroscopy; PAHs: polycyclic aromatic hydrocarbons; Vis: visible

Note. Adapted from “Green microextraction methodologies for sample preparations” by Kokosa JM, Przyjazny A. Green Anal Chem. 2022;3:100023 (https://www.sciencedirect.com/science/article/pii/S2772577422000222?via%3Dihub). CC BY 4.0 Deed.