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W2920874317 endingPage "74" @default.
W2920874317 startingPage "64" @default.
W2920874317 abstract "Herein, combined with the outstanding adsorption ability of flower-like MoS2 with ultra-thin nanosheets and the good electrical conductivity of reduced graphene oxide (rGO), a sensitive and anti-interference electrochemical sensing interface for the analysis of Pb(II) was constructed by using MoS2/rGO nanocomposite modified glassy carbon electrode (MoS2/rGO-GCE). The stripping behavior of Pb(II) was estimated using square wave anodic stripping voltammetry (SWASV), a high sensitivity of 50.80 μA μM−1 was achieved, and the limit of detection (LOD) was determined to be 0.005 μM (3σ method). The reasons for the excellent electrochemical performance of MoS2/rGO-GCE toward Pb(II) is that the excellent adsorption capacity and electrical conductivity, and the redox reaction of Pb(II) occurs directly on the surface of the MoS2/rGO nanocomposite. Moreover, series interference experiments were systematically conducted, the sensitivity of Pb(II) has no obvious change in the presence of other coexist heavy metal ions. In addition, an intriguing interference phenomenon between Pb(II) and Cu(II) was found. When Cu(II) exists in the solution, two stripping peaks of Pb(II) were observed, this phenomenon can be explained that the form of PbCu alloy or intermetallic compounds during the preconcentration process. Further experiments indicated that the proposed method has good stability and reproducibility. Finally, the accurate detection result of Pb(II) in wastewater sample gathered from Wangxiaoying wastewater treatment plant were obtained." @default.
W2920874317 created "2019-03-22" @default.
W2920874317 creator A5000623493 @default.
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W2920874317 creator A5037624766 @default.
W2920874317 creator A5058458085 @default.
W2920874317 creator A5088872065 @default.
W2920874317 date "2019-07-01" @default.
W2920874317 modified "2023-10-12" @default.
W2920874317 title "Sensitive and anti-interference stripping voltammetry analysis of Pb(II) in water using flower-like MoS2/rGO composite with ultra-thin nanosheets" @default.
W2920874317 cites W1156143879 @default.
W2920874317 cites W1860702361 @default.
W2920874317 cites W1965946612 @default.
W2920874317 cites W1973232390 @default.
W2920874317 cites W1990999575 @default.
W2920874317 cites W1993915496 @default.
W2920874317 cites W2003577423 @default.
W2920874317 cites W2007195468 @default.
W2920874317 cites W2007310073 @default.
W2920874317 cites W2011595210 @default.
W2920874317 cites W2024250911 @default.
W2920874317 cites W2024291894 @default.
W2920874317 cites W2027680902 @default.
W2920874317 cites W2035497877 @default.
W2920874317 cites W2039633477 @default.
W2920874317 cites W2043775186 @default.
W2920874317 cites W2049483082 @default.
W2920874317 cites W2051212690 @default.
W2920874317 cites W2053527728 @default.
W2920874317 cites W2075100496 @default.
W2920874317 cites W2077148800 @default.
W2920874317 cites W2077971088 @default.
W2920874317 cites W2081560813 @default.
W2920874317 cites W2086512413 @default.
W2920874317 cites W2088538436 @default.
W2920874317 cites W2089552213 @default.
W2920874317 cites W2103456839 @default.
W2920874317 cites W2104350537 @default.
W2920874317 cites W2110320947 @default.
W2920874317 cites W2110415460 @default.
W2920874317 cites W2110564441 @default.
W2920874317 cites W2119806837 @default.
W2920874317 cites W2137977053 @default.
W2920874317 cites W2144262119 @default.
W2920874317 cites W2147764910 @default.
W2920874317 cites W2151647434 @default.
W2920874317 cites W2169904151 @default.
W2920874317 cites W219834234 @default.
W2920874317 cites W2222640046 @default.
W2920874317 cites W2312907020 @default.
W2920874317 cites W2320206920 @default.
W2920874317 cites W2323724548 @default.
W2920874317 cites W2335402092 @default.
W2920874317 cites W2335751881 @default.
W2920874317 cites W2416976430 @default.
W2920874317 cites W2519072551 @default.
W2920874317 cites W2533659480 @default.
W2920874317 cites W2540821202 @default.
W2920874317 cites W2580715127 @default.
W2920874317 cites W2605624588 @default.
W2920874317 cites W2606812455 @default.
W2920874317 cites W2608769653 @default.
W2920874317 cites W2610151266 @default.
W2920874317 cites W2622732489 @default.
W2920874317 cites W2738806390 @default.
W2920874317 cites W2742984904 @default.
W2920874317 cites W2747296958 @default.
W2920874317 cites W2751042157 @default.
W2920874317 cites W2753082754 @default.
W2920874317 cites W2753457325 @default.
W2920874317 cites W2766742709 @default.
W2920874317 cites W2767024060 @default.
W2920874317 cites W2769222244 @default.
W2920874317 cites W2770331293 @default.
W2920874317 cites W2775196245 @default.
W2920874317 cites W2791645527 @default.
W2920874317 cites W2791892135 @default.
W2920874317 cites W2795059603 @default.
W2920874317 cites W2803099849 @default.
W2920874317 cites W2806058656 @default.
W2920874317 cites W2810255208 @default.
W2920874317 cites W2905712054 @default.
W2920874317 cites W4233194460 @default.
W2920874317 cites W590471864 @default.
W2920874317 doi "https://doi.org/10.1016/j.aca.2019.03.008" @default.
W2920874317 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30967187" @default.
W2920874317 hasPublicationYear "2019" @default.
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