SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4311144467> ?p ?o ?g. }

Showing items 1 to 100 of ±155 with 100 items per page.

W4311144467 endingPage "108295" @default.
W4311144467 startingPage "108295" @default.
W4311144467 abstract "Early determination of abnormal levels of uric acid (UA), xanthine (XA), and hypoxanthine (HXA) in the body fluid and food stuff could be useful in preventing various diseases. In this paper, we have fabricated a self-standing hybrid film based on niobium (benzene 1,3,5-tricarboxylic acid) MOFs (Nb(BTC)MOFs) and carbon nanofibers (CNFs) and explored as an enzyme-free electrochemical sensor for simultaneous determination of these analytes in phosphate buffer (pH = 7). As-developed hybrid film has a high specific surface area that permits faster transport of analyte molecules across the electrode-electrolyte interfaces, whereas a large number of active oxygen functionalities in MOF matrix could promote the sensitivity of the hybrid sensor. The Nb(BTC)[email protected] modified glassy carbon electrode (GCE) sensor demonstrated excellent electrochemical responses to these purine derivatives. The diffusion-controlled electrooxidation reactions of these three analytes were noticed. The hybrid sensor exhibited a wide linear range of 5 to 2000 µM along with a low LOD of 70 nM, 76 nM, and 68 nM for UA, XA, and HXA, respectively. The present interference-free sensor showed high selectivity and good storage stability (40 days). Finally, the sensing performances of the Nb(BTC)[email protected]/GCE toward UA, XA, and HXA in real samples were found to comparable to those of high-performance liquid chromatography (HPLC) results." @default.
W4311144467 created "2022-12-23" @default.
W4311144467 creator A5015434397 @default.
W4311144467 creator A5026448625 @default.
W4311144467 creator A5048695270 @default.
W4311144467 creator A5057253956 @default.
W4311144467 creator A5090303472 @default.
W4311144467 date "2023-03-01" @default.
W4311144467 modified "2023-10-18" @default.
W4311144467 title "Fabrication of niobium metal organic frameworks anchored carbon nanofiber hybrid film for simultaneous detection of xanthine, hypoxanthine and uric acid" @default.
W4311144467 cites W1558929232 @default.
W4311144467 cites W1622139557 @default.
W4311144467 cites W1963848156 @default.
W4311144467 cites W1964385123 @default.
W4311144467 cites W1969172290 @default.
W4311144467 cites W1984246872 @default.
W4311144467 cites W2008618271 @default.
W4311144467 cites W2021943870 @default.
W4311144467 cites W2022128814 @default.
W4311144467 cites W2030984737 @default.
W4311144467 cites W2036856813 @default.
W4311144467 cites W2038827196 @default.
W4311144467 cites W2040835074 @default.
W4311144467 cites W2045762870 @default.
W4311144467 cites W2052358720 @default.
W4311144467 cites W2069787406 @default.
W4311144467 cites W2093384244 @default.
W4311144467 cites W2145078369 @default.
W4311144467 cites W2224344693 @default.
W4311144467 cites W2309246390 @default.
W4311144467 cites W2326132712 @default.
W4311144467 cites W2329011942 @default.
W4311144467 cites W2335780996 @default.
W4311144467 cites W2344073812 @default.
W4311144467 cites W2512511822 @default.
W4311144467 cites W2601416404 @default.
W4311144467 cites W2724230086 @default.
W4311144467 cites W2752167549 @default.
W4311144467 cites W2752178285 @default.
W4311144467 cites W2758991158 @default.
W4311144467 cites W2781820455 @default.
W4311144467 cites W2786726863 @default.
W4311144467 cites W2792133915 @default.
W4311144467 cites W2797906173 @default.
W4311144467 cites W2884056476 @default.
W4311144467 cites W2889210032 @default.
W4311144467 cites W2893750644 @default.
W4311144467 cites W2909488501 @default.
W4311144467 cites W2909738816 @default.
W4311144467 cites W2912829358 @default.
W4311144467 cites W2937748229 @default.
W4311144467 cites W2942724426 @default.
W4311144467 cites W2944363256 @default.
W4311144467 cites W2951217533 @default.
W4311144467 cites W2964687020 @default.
W4311144467 cites W2970101886 @default.
W4311144467 cites W2971949244 @default.
W4311144467 cites W2977811017 @default.
W4311144467 cites W2986535399 @default.
W4311144467 cites W2995637887 @default.
W4311144467 cites W2998539951 @default.
W4311144467 cites W3000046378 @default.
W4311144467 cites W3004457161 @default.
W4311144467 cites W3014240635 @default.
W4311144467 cites W3036105398 @default.
W4311144467 cites W3091804478 @default.
W4311144467 cites W3093951841 @default.
W4311144467 cites W3101911281 @default.
W4311144467 cites W3113271000 @default.
W4311144467 cites W3132706619 @default.
W4311144467 cites W3133447302 @default.
W4311144467 cites W3133489844 @default.
W4311144467 cites W3134536716 @default.
W4311144467 cites W3158845007 @default.
W4311144467 cites W3175365373 @default.
W4311144467 cites W3195057187 @default.
W4311144467 cites W3217505428 @default.
W4311144467 cites W4206725501 @default.
W4311144467 cites W4210584319 @default.
W4311144467 cites W4213041507 @default.
W4311144467 cites W4286449685 @default.
W4311144467 cites W767053684 @default.
W4311144467 doi "https://doi.org/10.1016/j.microc.2022.108295" @default.
W4311144467 hasPublicationYear "2023" @default.
W4311144467 type Work @default.
W4311144467 citedByCount "5" @default.
W4311144467 countsByYear W43111444672023 @default.
W4311144467 crossrefType "journal-article" @default.
W4311144467 hasAuthorship W4311144467A5015434397 @default.
W4311144467 hasAuthorship W4311144467A5026448625 @default.
W4311144467 hasAuthorship W4311144467A5048695270 @default.
W4311144467 hasAuthorship W4311144467A5057253956 @default.
W4311144467 hasAuthorship W4311144467A5090303472 @default.
W4311144467 hasConcept C104779481 @default.
W4311144467 hasConcept C118792377 @default.
W4311144467 hasConcept C119128265 @default.
W4311144467 hasConcept C140205800 @default.
W4311144467 hasConcept C147789679 @default.