FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4229074702> ?p ?o ?g. }

• W4229074702 endingPage "11" @default.
• W4229074702 startingPage "1" @default.
• W4229074702 abstract "Ag is abundant in nature and is employed in practically every aspect of life. Furthermore, Ag+ contamination poses a severe hazard to human and environmental health due to the extensive usage of Ag products. Traditional Ag+ detection techniques include drawbacks such as high operational costs, sophisticated operating units and instruments, and strong technical demands. The use of fluorescence copper nanoparticles in pollution detection has received a lot of attention in recent times. The development of copper nanoparticles and the detecting of Ag+ are the major topics of this research. Utilizing fluorescence copper nanoparticles produced utilizing glucose (Glc) as a reduction mediator like a fluorescent probe, and a simple approach for determining Ag+ in water was devised. Due to its appealing properties, including such dissolution rate, widespread availability, simplicity of synthesis process, and excellent biocompatibility, fluorescence copper nanoparticles (F-CuNPs) have sparked a lot of interest, and a lot of time and effort has gone into their synthesis and usage. The slightly elevated metallophilic Ag+ contact served as such sensing element, efficiently quenching the fluorescent of AuAg NCs. Moreover, these fluorescence nanoprobes could have been used to identify Ag+ in the atmosphere, implying that they might be used as practical, dual-functional, fast-responding, and label-free fluorescent sensors for health and environmental assessment. The experiment’s analytical methodology would be that silver ions could fast and efficiently extinguish the fluorescent of Glucose-CuNPs. In the Ag+ region at 100 mol/L–600 mol/L ( <math xmlns=http://www.w3.org/1998/Math/MathML id=M1> <mi>R</mi> <mo>=</mo> <mn>0</mn> <mtext> </mtext> <mn>9845</mn> </math> ), a strong linear relation was discovered; the color is progressively improved below the observable region and visually colorimetrical measurement. Furthermore, the Glucose-CuNP instrument only detected Ag+ and was unaffected by other metal ions, demonstrating that Glucose-CuNPs have strong sensitivity for Ag+ sensing. Glucose-CuNP, as a result, accomplishes the identification of substantial metal Ag+ ions, and it has promising future applicability in environmental monitoring." @default.
• W4229074702 created "2022-05-08" @default.
• W4229074702 creator A5018664567 @default.
• W4229074702 creator A5019117765 @default.
• W4229074702 creator A5048107750 @default.
• W4229074702 creator A5051966968 @default.
• W4229074702 creator A5055852466 @default.
• W4229074702 creator A5059548554 @default.
• W4229074702 creator A5069520705 @default.
• W4229074702 creator A5081383255 @default.
• W4229074702 creator A5084805819 @default.
• W4229074702 date "2022-05-04" @default.
• W4229074702 modified "2023-10-03" @default.
• W4229074702 title "Detection of Ag+ by Synthesizing Fluorescent Copper Nanoparticles through Ultrasensitive Free Label Approach" @default.
• W4229074702 cites W1860062710 @default.
• W4229074702 cites W1903819079 @default.
• W4229074702 cites W2019464660 @default.
• W4229074702 cites W2020881481 @default.
• W4229074702 cites W2024521876 @default.
• W4229074702 cites W2041139925 @default.
• W4229074702 cites W2043502466 @default.
• W4229074702 cites W2061137761 @default.
• W4229074702 cites W2061874613 @default.
• W4229074702 cites W2065843973 @default.
• W4229074702 cites W2072343258 @default.
• W4229074702 cites W2097650563 @default.
• W4229074702 cites W2144924637 @default.
• W4229074702 cites W2208152602 @default.
• W4229074702 cites W2267191587 @default.
• W4229074702 cites W2590809681 @default.
• W4229074702 cites W2909345380 @default.
• W4229074702 cites W2919117661 @default.
• W4229074702 cites W2945348051 @default.
• W4229074702 cites W2972779347 @default.
• W4229074702 cites W2973024603 @default.
• W4229074702 cites W3027445473 @default.
• W4229074702 cites W3110883955 @default.
• W4229074702 cites W3123710450 @default.
• W4229074702 doi "https://doi.org/10.1155/2022/8642134" @default.
• W4229074702 hasPublicationYear "2022" @default.
• W4229074702 type Work @default.
• W4229074702 citedByCount "3" @default.
• W4229074702 countsByYear W42290747022023 @default.
• W4229074702 crossrefType "journal-article" @default.
• W4229074702 hasAuthorship W4229074702A5018664567 @default.
• W4229074702 hasAuthorship W4229074702A5019117765 @default.
• W4229074702 hasAuthorship W4229074702A5048107750 @default.
• W4229074702 hasAuthorship W4229074702A5051966968 @default.
• W4229074702 hasAuthorship W4229074702A5055852466 @default.
• W4229074702 hasAuthorship W4229074702A5059548554 @default.
• W4229074702 hasAuthorship W4229074702A5069520705 @default.
• W4229074702 hasAuthorship W4229074702A5081383255 @default.
• W4229074702 hasAuthorship W4229074702A5084805819 @default.
• W4229074702 hasBestOaLocation W42290747021 @default.
• W4229074702 hasConcept C121332964 @default.
• W4229074702 hasConcept C121745418 @default.
• W4229074702 hasConcept C127413603 @default.
• W4229074702 hasConcept C155672457 @default.
• W4229074702 hasConcept C171250308 @default.
• W4229074702 hasConcept C185592680 @default.
• W4229074702 hasConcept C191897082 @default.
• W4229074702 hasConcept C192562407 @default.
• W4229074702 hasConcept C21951064 @default.
• W4229074702 hasConcept C2777230088 @default.
• W4229074702 hasConcept C2987857752 @default.
• W4229074702 hasConcept C2987920364 @default.
• W4229074702 hasConcept C41008148 @default.
• W4229074702 hasConcept C42360764 @default.
• W4229074702 hasConcept C544778455 @default.
• W4229074702 hasConcept C62520636 @default.
• W4229074702 hasConcept C71924100 @default.
• W4229074702 hasConcept C88380143 @default.
• W4229074702 hasConcept C91881484 @default.
• W4229074702 hasConcept C99454951 @default.
• W4229074702 hasConceptScore W4229074702C121332964 @default.
• W4229074702 hasConceptScore W4229074702C121745418 @default.
• W4229074702 hasConceptScore W4229074702C127413603 @default.
• W4229074702 hasConceptScore W4229074702C155672457 @default.
• W4229074702 hasConceptScore W4229074702C171250308 @default.
• W4229074702 hasConceptScore W4229074702C185592680 @default.
• W4229074702 hasConceptScore W4229074702C191897082 @default.
• W4229074702 hasConceptScore W4229074702C192562407 @default.
• W4229074702 hasConceptScore W4229074702C21951064 @default.
• W4229074702 hasConceptScore W4229074702C2777230088 @default.
• W4229074702 hasConceptScore W4229074702C2987857752 @default.
• W4229074702 hasConceptScore W4229074702C2987920364 @default.
• W4229074702 hasConceptScore W4229074702C41008148 @default.
• W4229074702 hasConceptScore W4229074702C42360764 @default.
• W4229074702 hasConceptScore W4229074702C544778455 @default.
• W4229074702 hasConceptScore W4229074702C62520636 @default.
• W4229074702 hasConceptScore W4229074702C71924100 @default.
• W4229074702 hasConceptScore W4229074702C88380143 @default.
• W4229074702 hasConceptScore W4229074702C91881484 @default.
• W4229074702 hasConceptScore W4229074702C99454951 @default.
• W4229074702 hasFunder F4320321145 @default.
• W4229074702 hasLocation W42290747021 @default.
• W4229074702 hasOpenAccess W4229074702 @default.
• W4229074702 hasPrimaryLocation W42290747021 @default.

• next