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W2119595484 endingPage "10716" @default.
W2119595484 startingPage "10716" @default.
W2119595484 abstract "We report on the fabrication of thermoresponsive poly(N-isopropylacrylamide) nanogel-based dual fluorescent sensors for temperature and Hg2+ ions, and the effects of thermo-induced nanogel collapse on the detection sensitivity of Hg2+ ions. Near-monodisperse thermoresponsive nanogels were prepared via emulsion polymerization of N-isopropylacrylamide (NIPAM) and a novel 1,8-naphthalimide-based polarity-sensitive and Hg2+-reactive fluorescent monomer (NPTUA, 3). At room temperature, PNIPAM nanogels labeled with a single type of naphthalimide-based dye (NPTUA) can act as ratiometric Hg2+ probes at the nanomolar level. Upon heating above the phase transition temperature, the fluorescence intensity of NPTUA-labeled nanogels in the absence of Hg2+ exhibit ∼3.4-fold increase due to that NPTUA moieties are now located in a more hydrophobic microenvironment. Moreover, it was observed that the detection sensitivity to Hg2+ can be further improved above the nanogel phase transition temperature. At a nanogel concentration of 0.05 g L−1 and in the same Hg2+ concentration range (0–3.0 equiv.), ∼10 fold and ∼57 fold increase in fluorescence emission intensity ratio changes can be achieved at 25 and 40 °C, respectively." @default.
W2119595484 created "2016-06-24" @default.
W2119595484 creator A5007506563 @default.
W2119595484 creator A5018940391 @default.
W2119595484 date "2010-01-01" @default.
W2119595484 modified "2023-10-02" @default.
W2119595484 title "Responsive nanogel-based dual fluorescent sensors for temperature and Hg2+ ions with enhanced detection sensitivity" @default.
W2119595484 cites W1964260166 @default.
W2119595484 cites W1967065910 @default.
W2119595484 cites W1967950910 @default.
W2119595484 cites W1971451316 @default.
W2119595484 cites W1971518546 @default.
W2119595484 cites W1971872418 @default.
W2119595484 cites W1972121682 @default.
W2119595484 cites W1973296012 @default.
W2119595484 cites W1980073611 @default.
W2119595484 cites W1981326790 @default.
W2119595484 cites W1982042067 @default.
W2119595484 cites W1983171843 @default.
W2119595484 cites W1985019874 @default.
W2119595484 cites W1985548882 @default.
W2119595484 cites W1985802355 @default.
W2119595484 cites W1987607164 @default.
W2119595484 cites W1988049395 @default.
W2119595484 cites W1990311066 @default.
W2119595484 cites W1994163777 @default.
W2119595484 cites W2003044306 @default.
W2119595484 cites W2006825200 @default.
W2119595484 cites W2007524989 @default.
W2119595484 cites W2008085558 @default.
W2119595484 cites W2009057700 @default.
W2119595484 cites W2012020160 @default.
W2119595484 cites W2012180374 @default.
W2119595484 cites W2012384562 @default.
W2119595484 cites W2013812093 @default.
W2119595484 cites W2015030896 @default.
W2119595484 cites W2015224185 @default.
W2119595484 cites W2017320586 @default.
W2119595484 cites W2026821104 @default.
W2119595484 cites W2027359781 @default.
W2119595484 cites W2032750351 @default.
W2119595484 cites W2033043994 @default.
W2119595484 cites W2034642356 @default.
W2119595484 cites W2035819916 @default.
W2119595484 cites W2040566683 @default.
W2119595484 cites W2045824945 @default.
W2119595484 cites W2047516358 @default.
W2119595484 cites W2047654966 @default.
W2119595484 cites W2049814280 @default.
W2119595484 cites W2056479339 @default.
W2119595484 cites W2057016733 @default.
W2119595484 cites W2058110112 @default.
W2119595484 cites W2059405510 @default.
W2119595484 cites W2063200866 @default.
W2119595484 cites W2067202732 @default.
W2119595484 cites W2067235540 @default.
W2119595484 cites W2072123363 @default.
W2119595484 cites W2072423822 @default.
W2119595484 cites W2074980561 @default.
W2119595484 cites W2075996093 @default.
W2119595484 cites W2086896678 @default.
W2119595484 cites W2090187922 @default.
W2119595484 cites W2090583051 @default.
W2119595484 cites W2093972748 @default.
W2119595484 cites W2094503807 @default.
W2119595484 cites W2108193327 @default.
W2119595484 cites W2109161711 @default.
W2119595484 cites W2123564327 @default.
W2119595484 cites W2126418136 @default.
W2119595484 cites W2129977809 @default.
W2119595484 cites W2138721711 @default.
W2119595484 cites W2140559986 @default.
W2119595484 cites W2142814995 @default.
W2119595484 cites W2147954408 @default.
W2119595484 cites W2157039912 @default.
W2119595484 cites W2158180922 @default.
W2119595484 cites W2172098894 @default.
W2119595484 cites W2323929392 @default.
W2119595484 cites W2951753247 @default.
W2119595484 cites W4361773023 @default.
W2119595484 doi "https://doi.org/10.1039/c0jm01828g" @default.
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