SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4366606945> ?p ?o ?g. }

Showing items 1 to 100 of ±144 with 100 items per page.

W4366606945 endingPage "114780" @default.
W4366606945 startingPage "114780" @default.
W4366606945 abstract "We report the facile synthesis of three meso-substituted BODIPYs which can act as fluorimetric chemosensors for detecting fluoride ions in polar aprotic organic solvents with a micromolar detection limit. The substituents at the meso-positions of synthesized BODIPYs are acetamidophenyl (B1), trihydroxyphenyl (B2), and hydroxyquinoline (B3) which show strong absorption (490–510 nm) and emission (515–550 nm) in the visible region. The spectral and quantum mechanical studies indicate that the fluoride ions can interact with the acidic proton of the BODIPYs viz., NH in B1 and OH in B2 and B3 respectively, and results in 1:1 BODIPY-fluoride [BODIPY----HF] adduct. The acidic protons of these BODIPYs are abstracted by fluoride ions resulting in non-fluorescent deprotonated species (turn-OFF state). The time-dependent density functional theory (TDDFT) calculations indicate that the deprotonated adduct is responsible for the fluorescence turn-OFF via the photoinduced electron transfer (PET) mechanism. These non-fluorescent deprotonated adducts can return to the fluorescent BODIPY state by abstracting H+ ions from any protic solvents. Hence, these molecules can act as ON-OFF-ON reversible sensors. The deprotonated adducts show significantly different UV–visible responses for B1, B2 and B3. The binding constant of fluoride ions with BODIPYs (Kb) is calculated to be in the range of 105 –106 M−1 with a limit of detection (LOD) in the range of 0.73–9 ppm. The ON-OFF-ON sensing behaviour of B1 is utilized to construct NOR molecular logic gate based on the two inputs of F- and OH– ions, and the emission intensity at 520 nm as the output. Among these BODIPYs, B2 has the lowest LOD for fluoride ions and shows distinct color change upon deprotonation in the visible region. This property has been utilized to develop portable test-paper strips for the qualitative colorimetric detection of fluoride ions." @default.
W4366606945 created "2023-04-23" @default.
W4366606945 creator A5041886211 @default.
W4366606945 creator A5045933769 @default.
W4366606945 creator A5055280463 @default.
W4366606945 creator A5091450615 @default.
W4366606945 date "2023-08-01" @default.
W4366606945 modified "2023-10-05" @default.
W4366606945 title "Hydrogen-bonding receptor substituted BODIPYs as selective ON-OFF fluorimetric sensors for fluoride ions in polar aprotic organic solvents – A molecular-level understanding based on experimental and theoretical studies" @default.
W4366606945 cites W1882998092 @default.
W4366606945 cites W1942006419 @default.
W4366606945 cites W1965580657 @default.
W4366606945 cites W1968114632 @default.
W4366606945 cites W1974543891 @default.
W4366606945 cites W1980010612 @default.
W4366606945 cites W1984160248 @default.
W4366606945 cites W1984188085 @default.
W4366606945 cites W1985533665 @default.
W4366606945 cites W1988091937 @default.
W4366606945 cites W1995192830 @default.
W4366606945 cites W1996871397 @default.
W4366606945 cites W1997151511 @default.
W4366606945 cites W1999081489 @default.
W4366606945 cites W2000088683 @default.
W4366606945 cites W2005351014 @default.
W4366606945 cites W2005936128 @default.
W4366606945 cites W2007942409 @default.
W4366606945 cites W2016068654 @default.
W4366606945 cites W2029360169 @default.
W4366606945 cites W2029403061 @default.
W4366606945 cites W2030687437 @default.
W4366606945 cites W2030768794 @default.
W4366606945 cites W2031490041 @default.
W4366606945 cites W2035638641 @default.
W4366606945 cites W2036811809 @default.
W4366606945 cites W2037320282 @default.
W4366606945 cites W2037997974 @default.
W4366606945 cites W2047093041 @default.
W4366606945 cites W2047521998 @default.
W4366606945 cites W2050056663 @default.
W4366606945 cites W2062350397 @default.
W4366606945 cites W2063885065 @default.
W4366606945 cites W2066053481 @default.
W4366606945 cites W2067576532 @default.
W4366606945 cites W2069138147 @default.
W4366606945 cites W2075827343 @default.
W4366606945 cites W2078146328 @default.
W4366606945 cites W2082037815 @default.
W4366606945 cites W2083813676 @default.
W4366606945 cites W2086957099 @default.
W4366606945 cites W2087619790 @default.
W4366606945 cites W2091043018 @default.
W4366606945 cites W2091360402 @default.
W4366606945 cites W2094145263 @default.
W4366606945 cites W2095191961 @default.
W4366606945 cites W2096675898 @default.
W4366606945 cites W2103680519 @default.
W4366606945 cites W2105994033 @default.
W4366606945 cites W2130079521 @default.
W4366606945 cites W2135211217 @default.
W4366606945 cites W2136341642 @default.
W4366606945 cites W2138820222 @default.
W4366606945 cites W2138871140 @default.
W4366606945 cites W2144961968 @default.
W4366606945 cites W2148284063 @default.
W4366606945 cites W2150697053 @default.
W4366606945 cites W2153587061 @default.
W4366606945 cites W2230728100 @default.
W4366606945 cites W2319418998 @default.
W4366606945 cites W2329441181 @default.
W4366606945 cites W2332226289 @default.
W4366606945 cites W2493856545 @default.
W4366606945 cites W2527705001 @default.
W4366606945 cites W2606753974 @default.
W4366606945 cites W2760994351 @default.
W4366606945 cites W2782630162 @default.
W4366606945 cites W2802367713 @default.
W4366606945 cites W2802979462 @default.
W4366606945 cites W2804897549 @default.
W4366606945 cites W2898086086 @default.
W4366606945 cites W2946790738 @default.
W4366606945 cites W2947080890 @default.
W4366606945 cites W3036723969 @default.
W4366606945 cites W3213038629 @default.
W4366606945 cites W4303628486 @default.
W4366606945 doi "https://doi.org/10.1016/j.jphotochem.2023.114780" @default.
W4366606945 hasPublicationYear "2023" @default.
W4366606945 type Work @default.
W4366606945 citedByCount "0" @default.
W4366606945 crossrefType "journal-article" @default.
W4366606945 hasAuthorship W4366606945A5041886211 @default.
W4366606945 hasAuthorship W4366606945A5045933769 @default.
W4366606945 hasAuthorship W4366606945A5055280463 @default.
W4366606945 hasAuthorship W4366606945A5091450615 @default.
W4366606945 hasConcept C108204754 @default.
W4366606945 hasConcept C118629725 @default.
W4366606945 hasConcept C121332964 @default.
W4366606945 hasConcept C145148216 @default.