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W2898893814 startingPage "16482" @default.
W2898893814 abstract "In recent years, a significant challenge in material science has been to fabricate novel functional nanomaterials to mimic the function of natural enzymatic systems. Herein, ternary polyaniline (PANi)–MnO2–Pd nanowires (NWs) are synthesized through a two-step redox reaction process. The prepared PANi–MnO2–Pd NWs were explored to exhibit dual responsive enzyme-like efficiencies, e.g., peroxidase and oxidase-like activities. With the assistance of H2O2, the obtained ternary PANi–MnO2–Pd NWs were able to oxidize the typical peroxidase substrate of 3,3′,5,5′-tetramethylbenzidine (TMB) to yield the oxidized TMB with a blue color, exhibiting a much better peroxidase-like activity than the synthesized PANi–MnO2 NWs alone and Pd nanoparticles owing to the interfacial electron transfer effect among the components. In addition, in the absence of H2O2, the prepared PANi–MnO2–Pd NWs could also oxidize TMB to display an excellent oxidase-like activity. Based on the dual responsive enzyme-like characteristic of the obtained ternary PANi–MnO2–Pd NWs, a rapid and applicative colorimetric way to sensitively determine l-cysteine and ascorbic acid (AA) has been developed. The limits of detection based on the two systems were estimated to be as low as 118 and 34 nM, respectively. We believe that the prepared ternary PANi–MnO2–Pd NWs with both peroxidase and oxidase-like activities will show broad potential applications in bioscience and bioengineering." @default.
W2898893814 created "2018-11-09" @default.
W2898893814 creator A5000801360 @default.
W2898893814 creator A5021591791 @default.
W2898893814 creator A5036429116 @default.
W2898893814 creator A5040485195 @default.
W2898893814 creator A5065528840 @default.
W2898893814 creator A5075456232 @default.
W2898893814 date "2018-10-31" @default.
W2898893814 modified "2023-10-14" @default.
W2898893814 title "Dual Responsive Enzyme Mimicking of Ternary Polyaniline–MnO<sub>2</sub>–Pd Nanowires and Its Application in Colorimetric Biosensing" @default.
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W2898893814 doi "https://doi.org/10.1021/acssuschemeng.8b03567" @default.
W2898893814 hasPublicationYear "2018" @default.
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