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W3080853225 endingPage "118864" @default.
W3080853225 startingPage "118864" @default.
W3080853225 abstract "It is an important challenge to develop a chemosensor for trace uranyl ion in an aqueous medium for sustainable development of nuclear energy and environmental conservation. A conjugated fluorescent polymer sensor P2 based on amidoxime groups and polyfluorene, which showed good hydrophilous resulting adequate contact with uranyl ions and selectivity and sensitivity even in the presence of other metal ions in DMA/H2O (v/v = 20:80, pH = 6.0) solution, for uranyl ion was designed and prepared in this work. And it possesses good thermal stability and a larger Stokes shift (108 nm). Importantly, the fluorescence quenching occurred when P2 combining uranium. It had a good linear relationship with UO22+ concentration in the range of 10 to 200 nM with a fairly low LOD 7.4 × 10-9 M. Interaction properties between the sensor P2 and UO22+ and the fluorescent mechanism were investigated by density functional theory (DFT). More importantly, the sensor can be successfully used for the detection of uranyl ion in environmental solutions. This work suggests that conjugated fluorescent polymer with amidoxime groups will be a prospective sensor of uranyl ion in the environmental sample." @default.
W3080853225 created "2020-09-01" @default.
W3080853225 creator A5055164347 @default.
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W3080853225 date "2021-01-01" @default.
W3080853225 modified "2023-10-12" @default.
W3080853225 title "A conjugated fluorescent polymer sensor with amidoxime and polyfluorene entities for effective detection of uranyl ion in real samples" @default.
W3080853225 cites W1544375061 @default.
W3080853225 cites W1794335271 @default.
W3080853225 cites W1966829246 @default.
W3080853225 cites W1973354592 @default.
W3080853225 cites W2004664692 @default.
W3080853225 cites W2005170075 @default.
W3080853225 cites W2006240270 @default.
W3080853225 cites W2007015359 @default.
W3080853225 cites W2009057700 @default.
W3080853225 cites W2019037748 @default.
W3080853225 cites W2022798526 @default.
W3080853225 cites W2028138804 @default.
W3080853225 cites W2037664996 @default.
W3080853225 cites W2053764056 @default.
W3080853225 cites W2058053420 @default.
W3080853225 cites W2064191297 @default.
W3080853225 cites W2066376871 @default.
W3080853225 cites W2070181270 @default.
W3080853225 cites W2071679768 @default.
W3080853225 cites W2073451667 @default.
W3080853225 cites W207436975 @default.
W3080853225 cites W2084029388 @default.
W3080853225 cites W2088493518 @default.
W3080853225 cites W2093540937 @default.
W3080853225 cites W2104367814 @default.
W3080853225 cites W2108179047 @default.
W3080853225 cites W2110836372 @default.
W3080853225 cites W2115830615 @default.
W3080853225 cites W2140624492 @default.
W3080853225 cites W2153949919 @default.
W3080853225 cites W2167541963 @default.
W3080853225 cites W2172145806 @default.
W3080853225 cites W2173215576 @default.
W3080853225 cites W2175141501 @default.
W3080853225 cites W2287210240 @default.
W3080853225 cites W2317671948 @default.
W3080853225 cites W2320122325 @default.
W3080853225 cites W2327288612 @default.
W3080853225 cites W2334501236 @default.
W3080853225 cites W2494024422 @default.
W3080853225 cites W2511157305 @default.
W3080853225 cites W2593326462 @default.
W3080853225 cites W2601365227 @default.
W3080853225 cites W2613909208 @default.
W3080853225 cites W2730078226 @default.
W3080853225 cites W2743405183 @default.
W3080853225 cites W2763434265 @default.
W3080853225 cites W2777506985 @default.
W3080853225 cites W2791913442 @default.
W3080853225 cites W2799825164 @default.
W3080853225 cites W285717734 @default.
W3080853225 cites W2886280610 @default.
W3080853225 cites W2889262275 @default.
W3080853225 cites W2889412210 @default.
W3080853225 cites W2900832101 @default.
W3080853225 cites W2912307481 @default.
W3080853225 cites W2915218454 @default.
W3080853225 cites W2936064992 @default.
W3080853225 cites W2940557271 @default.
W3080853225 cites W2946824942 @default.
W3080853225 cites W2949869073 @default.
W3080853225 cites W2950409397 @default.
W3080853225 cites W2962985514 @default.
W3080853225 cites W2966726542 @default.
W3080853225 cites W2971242513 @default.
W3080853225 cites W2980467839 @default.
W3080853225 cites W2981535244 @default.
W3080853225 cites W3012220288 @default.
W3080853225 cites W3021098606 @default.
W3080853225 cites W96852952 @default.
W3080853225 doi "https://doi.org/10.1016/j.saa.2020.118864" @default.
W3080853225 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32889338" @default.
W3080853225 hasPublicationYear "2021" @default.
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