2010
DOI: 10.1016/j.bios.2010.04.030
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Construction of optical glucose nanobiosensor with high sensitivity and selectivity at physiological pH on the basis of organic–inorganic hybrid microgels

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Cited by 63 publications
(88 citation statements)
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“…The reversible glucose-responsive volume change of the gel can modify the physicochemical environment of the embedded ZnO QDs and thus convert the disruptions in homeostasis of glucose level into highly reproducible fluorescent signals (Figures 7 and 8), providing optical readout of the glucose level in blood samples. In comparison with our previously studied hybrid nanogels with the QDs/NPs physically restricted in the polymer networks, [10][11][12] the ZnO@poly(NIPAMAAm-FPBA) hybrid nanogels with ZnO QDs covalently bonding to the gel network chains demonstrate a much higher sensitivity of PL response, possibly due to the rapid and sensitive transmission of the elastic tension directly from the polymer chains to the covalently bonded QDs. The rapid and highly accurate PL response of the sensor is necessary for future in situ studies in biosystems.…”
Section: Discussionmentioning
confidence: 99%
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“…The reversible glucose-responsive volume change of the gel can modify the physicochemical environment of the embedded ZnO QDs and thus convert the disruptions in homeostasis of glucose level into highly reproducible fluorescent signals (Figures 7 and 8), providing optical readout of the glucose level in blood samples. In comparison with our previously studied hybrid nanogels with the QDs/NPs physically restricted in the polymer networks, [10][11][12] the ZnO@poly(NIPAMAAm-FPBA) hybrid nanogels with ZnO QDs covalently bonding to the gel network chains demonstrate a much higher sensitivity of PL response, possibly due to the rapid and sensitive transmission of the elastic tension directly from the polymer chains to the covalently bonded QDs. The rapid and highly accurate PL response of the sensor is necessary for future in situ studies in biosystems.…”
Section: Discussionmentioning
confidence: 99%
“…Afterward, the FPBA moieties were coupled to form ZnO@poly(NIPAM-AAm-FPBA) hybrid nanogels using our previously reported procedure. 10,11 First, 0.231 g of FPBA and 0.230 g of EDC were dissolved in 35 ml water. After being cooled in an ice bath, 20 ml purified ZnO@ poly(NIPAM-AAm-AA) hybrid nanogels were added to the solution.…”
Section: Methodsmentioning
confidence: 99%
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