SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4367176395> ?p ?o ?g. }

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

W4367176395 endingPage "8003" @default.
W4367176395 startingPage "7992" @default.
W4367176395 abstract "Urea is an important indicator for health, environmental, and energy applications worldwide. Various analytics have been developed to detect urea rapidly and selectively for real-world interfacing; however, they still suffer from noise fluctuations due to environmental and instrumental conditions because most analytics are based on a single-signal readout system. In this study, we designed and synthesized a dual-signal, fluorometric and colorimetric, and read-out assay that integrates fluorescent carbon dot (CD) nanosensors with pH-responsive plasmonic silver nanoparticles (Ag NPs) for urea detection. The urease enzyme can specifically hydrolyze urea to generate carbon dioxide and ammonia, causing an increase in the pH, which activates the reduction affinity of tannic acid to generate plasmonic Ag NPs in situ. In situ generation of plasmonic Ag NPs is enabled by the reduction affinity of tannic acid, which is activated when the pH rises as a result of the urease enzyme hydrolyzing urea to produce carbon dioxide and ammonia. The absorption spectra of the Ag NPs overlapped closely with the fluorescence spectrum of the CDs, enabling effective quenching of the CD fluorescence upon urea exposure. This fluorogenic and chromogenic dual signal is used to quantify the accurate urea concentrations, showing a limit of detection (LOD) of 18 nM and 1.05 μM for fluorometric and colorimetric sensing within linear ranges between 100 nM–1 mM and 50 μM–1 mM, respectively─the lowest recorded LOD among fluorometric or colorimetric sensors. In addition, the dual sensor showed reliable detection of urea in real urine samples with (96–102.5%) recoveries. Finally, the dual-signal nanosensor was successfully implanted in the hydrogel matrix to facilitate a solid-state stable signal readout with an LOD of 287 nM. This dual-sensor construct provides fundamental solutions for nanomaterials in reliable and accurate urea detection applications that accelerate real-world interfacing." @default.
W4367176395 created "2023-04-28" @default.
W4367176395 creator A5006971042 @default.
W4367176395 creator A5017984520 @default.
W4367176395 creator A5032888224 @default.
W4367176395 creator A5033287366 @default.
W4367176395 creator A5040609562 @default.
W4367176395 creator A5069977190 @default.
W4367176395 creator A5076447060 @default.
W4367176395 date "2023-04-27" @default.
W4367176395 modified "2023-10-15" @default.
W4367176395 title "Fluorometric and Colorimetric Hybrid Carbon-Dot Nanosensors for Dual Monitoring of Urea" @default.
W4367176395 cites W1983939062 @default.
W4367176395 cites W2014132439 @default.
W4367176395 cites W2018073176 @default.
W4367176395 cites W2027586433 @default.
W4367176395 cites W2063888576 @default.
W4367176395 cites W2090598449 @default.
W4367176395 cites W2091513518 @default.
W4367176395 cites W2092003016 @default.
W4367176395 cites W2120928149 @default.
W4367176395 cites W2121592703 @default.
W4367176395 cites W2129126460 @default.
W4367176395 cites W2136693699 @default.
W4367176395 cites W2164240207 @default.
W4367176395 cites W2190827209 @default.
W4367176395 cites W2205404102 @default.
W4367176395 cites W2260371188 @default.
W4367176395 cites W2313776163 @default.
W4367176395 cites W2536373210 @default.
W4367176395 cites W2602196357 @default.
W4367176395 cites W2606725865 @default.
W4367176395 cites W2752278690 @default.
W4367176395 cites W2759352057 @default.
W4367176395 cites W2761651004 @default.
W4367176395 cites W2765365908 @default.
W4367176395 cites W2770664228 @default.
W4367176395 cites W2790344265 @default.
W4367176395 cites W2792448009 @default.
W4367176395 cites W2792974521 @default.
W4367176395 cites W2805933219 @default.
W4367176395 cites W2894875974 @default.
W4367176395 cites W2895573730 @default.
W4367176395 cites W2900677394 @default.
W4367176395 cites W2903824338 @default.
W4367176395 cites W2920948098 @default.
W4367176395 cites W2935491511 @default.
W4367176395 cites W2957089121 @default.
W4367176395 cites W2958376892 @default.
W4367176395 cites W2964380076 @default.
W4367176395 cites W2996651322 @default.
W4367176395 cites W2998102703 @default.
W4367176395 cites W2998921625 @default.
W4367176395 cites W3008807809 @default.
W4367176395 cites W3018816162 @default.
W4367176395 cites W3022372230 @default.
W4367176395 cites W3034711550 @default.
W4367176395 cites W3034757201 @default.
W4367176395 cites W3042386496 @default.
W4367176395 cites W3048946551 @default.
W4367176395 cites W3085259151 @default.
W4367176395 cites W3092377095 @default.
W4367176395 cites W3100218693 @default.
W4367176395 cites W3110564622 @default.
W4367176395 cites W3122203682 @default.
W4367176395 cites W3128464927 @default.
W4367176395 cites W3143664544 @default.
W4367176395 cites W3143969202 @default.
W4367176395 cites W3161597151 @default.
W4367176395 cites W3186124827 @default.
W4367176395 cites W3194886686 @default.
W4367176395 cites W3200505368 @default.
W4367176395 cites W3209505957 @default.
W4367176395 cites W3212649672 @default.
W4367176395 cites W4213426200 @default.
W4367176395 cites W4223963731 @default.
W4367176395 cites W4281760062 @default.
W4367176395 cites W4285192745 @default.
W4367176395 cites W4294549715 @default.
W4367176395 doi "https://doi.org/10.1021/acsanm.3c01247" @default.
W4367176395 hasPublicationYear "2023" @default.
W4367176395 type Work @default.
W4367176395 citedByCount "0" @default.
W4367176395 crossrefType "journal-article" @default.
W4367176395 hasAuthorship W4367176395A5006971042 @default.
W4367176395 hasAuthorship W4367176395A5017984520 @default.
W4367176395 hasAuthorship W4367176395A5032888224 @default.
W4367176395 hasAuthorship W4367176395A5033287366 @default.
W4367176395 hasAuthorship W4367176395A5040609562 @default.
W4367176395 hasAuthorship W4367176395A5069977190 @default.
W4367176395 hasAuthorship W4367176395A5076447060 @default.
W4367176395 hasConcept C10390740 @default.
W4367176395 hasConcept C119128265 @default.
W4367176395 hasConcept C121332964 @default.
W4367176395 hasConcept C13965031 @default.
W4367176395 hasConcept C171250308 @default.
W4367176395 hasConcept C178790620 @default.
W4367176395 hasConcept C185592680 @default.