SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2909327790> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W2909327790 endingPage "2154" @default.
W2909327790 startingPage "2148" @default.
W2909327790 abstract "In order to accurately and conveniently measure temperature and water content in bioethanol, a dual-function ratiometric luminescence sensor has been fabricated successfully based on mixed lanthanide metal-organic frameworks (MOFs) Eu0.02Dy0.18-MOF. In this MOF, the two lanthanides and ligand (H4L) form three luminescence centers, and they have different sensitivity toward water and temperature. Using the ratio of luminescence intensity at 416 and 614 nm, the MOF could quantitatively determine the concentration of water in dry ethanol and in bioethanol with recoveries of 91% -107%, and a detection limit of 0.1%, which is much lower than that in hydrated ethyl alcohol fuel (AEHC), 0.8% in China, 1.0% in the United States, and 4.9% in Brazil. Using the luminescence intensity ratio of Eu3+5D0 → 7F2 (614 nm) transition to Dy3+4F9/2 → 6H13/2 (573 nm) transition, the MOF could also sense temperature in range of 293 to 373 K, and 150 to 290 K with high accuracy, excellent linear relationship, reversibility, and recyclability." @default.
W2909327790 created "2019-01-25" @default.
W2909327790 creator A5002035608 @default.
W2909327790 creator A5031976013 @default.
W2909327790 creator A5036478874 @default.
W2909327790 creator A5047302242 @default.
W2909327790 creator A5049418179 @default.
W2909327790 creator A5065859286 @default.
W2909327790 creator A5088041819 @default.
W2909327790 date "2019-01-08" @default.
W2909327790 modified "2023-10-17" @default.
W2909327790 title "Dual-Function Mixed-Lanthanide Metal–Organic Framework for Ratiometric Water Detection in Bioethanol and Temperature Sensing" @default.
W2909327790 cites W1965211520 @default.
W2909327790 cites W1981877283 @default.
W2909327790 cites W1990166065 @default.
W2909327790 cites W2002913591 @default.
W2909327790 cites W2010041898 @default.
W2909327790 cites W2022969812 @default.
W2909327790 cites W2023208418 @default.
W2909327790 cites W2026501900 @default.
W2909327790 cites W2046557021 @default.
W2909327790 cites W2054749053 @default.
W2909327790 cites W2054896966 @default.
W2909327790 cites W2055382943 @default.
W2909327790 cites W2061069437 @default.
W2909327790 cites W2063646344 @default.
W2909327790 cites W2068848819 @default.
W2909327790 cites W2074538584 @default.
W2909327790 cites W2085157107 @default.
W2909327790 cites W2087762156 @default.
W2909327790 cites W2098292174 @default.
W2909327790 cites W2115822581 @default.
W2909327790 cites W2119509850 @default.
W2909327790 cites W2210893501 @default.
W2909327790 cites W2226581414 @default.
W2909327790 cites W2276002005 @default.
W2909327790 cites W2295980539 @default.
W2909327790 cites W2320006094 @default.
W2909327790 cites W2327526185 @default.
W2909327790 cites W2327804778 @default.
W2909327790 cites W2329410651 @default.
W2909327790 cites W2329753158 @default.
W2909327790 cites W2473731816 @default.
W2909327790 cites W2517166698 @default.
W2909327790 cites W2536396846 @default.
W2909327790 cites W2549526350 @default.
W2909327790 cites W2554741340 @default.
W2909327790 cites W2565219213 @default.
W2909327790 cites W2579779043 @default.
W2909327790 cites W2612196037 @default.
W2909327790 cites W2770836641 @default.
W2909327790 cites W2787499028 @default.
W2909327790 cites W2788099687 @default.
W2909327790 cites W2789269880 @default.
W2909327790 cites W2791868525 @default.
W2909327790 cites W2795084907 @default.
W2909327790 cites W2798071752 @default.
W2909327790 cites W2800068044 @default.
W2909327790 cites W2800932616 @default.
W2909327790 cites W2806452742 @default.
W2909327790 cites W4235843985 @default.
W2909327790 doi "https://doi.org/10.1021/acs.analchem.8b04690" @default.
W2909327790 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30616342" @default.
W2909327790 hasPublicationYear "2019" @default.
W2909327790 type Work @default.
W2909327790 sameAs 2909327790 @default.
W2909327790 citedByCount "64" @default.
W2909327790 countsByYear W29093277902019 @default.
W2909327790 countsByYear W29093277902020 @default.
W2909327790 countsByYear W29093277902021 @default.
W2909327790 countsByYear W29093277902022 @default.
W2909327790 countsByYear W29093277902023 @default.
W2909327790 crossrefType "journal-article" @default.
W2909327790 hasAuthorship W2909327790A5002035608 @default.
W2909327790 hasAuthorship W2909327790A5031976013 @default.
W2909327790 hasAuthorship W2909327790A5036478874 @default.
W2909327790 hasAuthorship W2909327790A5047302242 @default.
W2909327790 hasAuthorship W2909327790A5049418179 @default.
W2909327790 hasAuthorship W2909327790A5065859286 @default.
W2909327790 hasAuthorship W2909327790A5088041819 @default.
W2909327790 hasConcept C113196181 @default.
W2909327790 hasConcept C119128265 @default.
W2909327790 hasConcept C145148216 @default.
W2909327790 hasConcept C147789679 @default.
W2909327790 hasConcept C148869448 @default.
W2909327790 hasConcept C150394285 @default.
W2909327790 hasConcept C178790620 @default.
W2909327790 hasConcept C179104552 @default.
W2909327790 hasConcept C179366358 @default.
W2909327790 hasConcept C185592680 @default.
W2909327790 hasConcept C192562407 @default.
W2909327790 hasConcept C201770740 @default.
W2909327790 hasConcept C43617362 @default.
W2909327790 hasConcept C49040817 @default.
W2909327790 hasConceptScore W2909327790C113196181 @default.
W2909327790 hasConceptScore W2909327790C119128265 @default.
W2909327790 hasConceptScore W2909327790C145148216 @default.
W2909327790 hasConceptScore W2909327790C147789679 @default.