SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2894945183> ?p ?o ?g. }

Showing items 1 to 100 of ±136 with 100 items per page.

W2894945183 endingPage "272" @default.
W2894945183 startingPage "258" @default.
W2894945183 abstract "Abstract Determination of target analytes present in complex matrices requires a suitable sample preparation approach to efficiently remove the analytes of interest from a medium containing several interferers while at the same time preconcentrating them aiming to improve the output signal detection. Online multidimensional solid‐phase separation techniques have been widely used for the analysis of different contaminants in complex matrices such as food, environmental, and biological samples, among others. These online techniques usually consist of two steps performed in two different columns (extraction and analytical column), the first being employed to extract the analytes of interest from the original medium and the latter to separate them from the interferers. The extraction column in multidimensional techniques presents a relevant role since their variations as building material (usually a tube), sorbent material, modes of application, and so on can significantly influence the extraction success. The main features of such columns are subject of constant research aiming improvements directly related to the performance of the separation techniques that utilize multidimensional analysis. The present review highlights the main features of extraction columns online coupled to chromatographic techniques, inclusive for in‐tube solid‐phase microextraction, online solid phase and turbulent flow, aiming the determination of analytes present at very low concentrations in complex matrices. It will critically describe and discuss some of the most common instrumental set up as well as comments on recent applications of these multidimensional techniques. Besides that, the authors have described some properties and enhancements of the extraction columns that are used as first dimension on these systems, such as type of column material (poly (ether ether ketone), fused silica, stainless steel, and other materials) and the way that the extractive phase is accommodated inside the tubing (filled and open tubular). Practical applications of this approach in fields such as environment, food, and bioanalysis are also presented and discussed." @default.
W2894945183 created "2018-10-12" @default.
W2894945183 creator A5070214973 @default.
W2894945183 creator A5087057938 @default.
W2894945183 creator A5091061698 @default.
W2894945183 date "2018-10-25" @default.
W2894945183 modified "2023-10-15" @default.
W2894945183 title "Current status and future trends on automated multidimensional separation techniques employing sorbent‐based extraction columns" @default.
W2894945183 cites W1152478009 @default.
W2894945183 cites W1964739646 @default.
W2894945183 cites W1965888589 @default.
W2894945183 cites W1968147152 @default.
W2894945183 cites W1968239024 @default.
W2894945183 cites W1979681640 @default.
W2894945183 cites W1997565884 @default.
W2894945183 cites W2009497115 @default.
W2894945183 cites W2013031384 @default.
W2894945183 cites W2032021504 @default.
W2894945183 cites W2058703330 @default.
W2894945183 cites W2059662105 @default.
W2894945183 cites W2062383923 @default.
W2894945183 cites W2065429223 @default.
W2894945183 cites W2069865202 @default.
W2894945183 cites W2077831553 @default.
W2894945183 cites W2086006158 @default.
W2894945183 cites W2123618419 @default.
W2894945183 cites W2148702240 @default.
W2894945183 cites W2167118827 @default.
W2894945183 cites W2193814768 @default.
W2894945183 cites W2223253059 @default.
W2894945183 cites W2275193560 @default.
W2894945183 cites W2473777701 @default.
W2894945183 cites W2474000327 @default.
W2894945183 cites W2507455659 @default.
W2894945183 cites W2532126181 @default.
W2894945183 cites W2536457302 @default.
W2894945183 cites W2546583546 @default.
W2894945183 cites W2582301429 @default.
W2894945183 cites W2584253675 @default.
W2894945183 cites W2587706841 @default.
W2894945183 cites W2594675698 @default.
W2894945183 cites W2664447832 @default.
W2894945183 cites W2736433596 @default.
W2894945183 cites W2739494331 @default.
W2894945183 cites W2745773644 @default.
W2894945183 cites W2753513631 @default.
W2894945183 cites W2754375997 @default.
W2894945183 cites W2755091895 @default.
W2894945183 cites W2755674788 @default.
W2894945183 cites W2759190828 @default.
W2894945183 cites W2765112960 @default.
W2894945183 cites W2783071314 @default.
W2894945183 cites W2787917012 @default.
W2894945183 cites W2789356148 @default.
W2894945183 cites W2790764836 @default.
W2894945183 cites W2793150866 @default.
W2894945183 cites W2793224002 @default.
W2894945183 cites W2793656748 @default.
W2894945183 cites W2793916304 @default.
W2894945183 cites W2794468243 @default.
W2894945183 cites W2794774593 @default.
W2894945183 cites W2794957186 @default.
W2894945183 cites W2795888059 @default.
W2894945183 cites W2797269040 @default.
W2894945183 cites W2800561631 @default.
W2894945183 cites W2803581328 @default.
W2894945183 cites W2804064521 @default.
W2894945183 cites W650276596 @default.
W2894945183 cites W749677836 @default.
W2894945183 cites W756557855 @default.
W2894945183 cites W862087197 @default.
W2894945183 doi "https://doi.org/10.1002/jssc.201800824" @default.
W2894945183 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30289207" @default.
W2894945183 hasPublicationYear "2018" @default.
W2894945183 type Work @default.
W2894945183 sameAs 2894945183 @default.
W2894945183 citedByCount "23" @default.
W2894945183 countsByYear W28949451832019 @default.
W2894945183 countsByYear W28949451832020 @default.
W2894945183 countsByYear W28949451832021 @default.
W2894945183 countsByYear W28949451832022 @default.
W2894945183 countsByYear W28949451832023 @default.
W2894945183 crossrefType "journal-article" @default.
W2894945183 hasAuthorship W2894945183A5070214973 @default.
W2894945183 hasAuthorship W2894945183A5087057938 @default.
W2894945183 hasAuthorship W2894945183A5091061698 @default.
W2894945183 hasBestOaLocation W28949451831 @default.
W2894945183 hasConcept C10390740 @default.
W2894945183 hasConcept C127413603 @default.
W2894945183 hasConcept C150394285 @default.
W2894945183 hasConcept C178790620 @default.
W2894945183 hasConcept C185592680 @default.
W2894945183 hasConcept C21880701 @default.
W2894945183 hasConcept C2777899863 @default.
W2894945183 hasConcept C2778576202 @default.
W2894945183 hasConcept C41008148 @default.
W2894945183 hasConcept C43617362 @default.
W2894945183 hasConcept C4725764 @default.