An electrochemical sensor based on MOF-derived porous carbon/graphene composite for sensitive determination of carbendazim

A sensitive electrochemical sensor for the determination of carbendazim (CBZ) was developed with Ni-doping nanoporous carbon-graphene composite (G-Ni/C) as the electrode material. The combination of graphene and Ni-doping nanoporous carbon not only prevented the aggregation of graphene, but also imp...

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Veröffentlicht in:	Mikrochimica acta (1966) 2022-12, Vol.189 (12), p.454, Article 454
Hauptverfasser:	Guo, Linna, Zhao, Bin, Hao, Lin, Zhang, Yufan, Wang, Chun
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Sprache:	eng
Schlagworte:	Accumulation Analytical Chemistry Carbon Carbon - chemistry Catalytic activity Characterization and Evaluation of Materials Chemical sensors Chemistry Chemistry and Materials Science Doping Electric properties Electrical conductivity Electrical resistivity Electrochemical analysis Electrochemical Techniques - methods Electrode materials Graphene Graphite Graphite - chemistry Microengineering Nanochemistry Nanotechnology Nickel Original Paper Oxidation Ponds Porosity Pyrolysis Sensors Voltammetry Water
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description	A sensitive electrochemical sensor for the determination of carbendazim (CBZ) was developed with Ni-doping nanoporous carbon-graphene composite (G-Ni/C) as the electrode material. The combination of graphene and Ni-doping nanoporous carbon not only prevented the aggregation of graphene, but also improved electric conductivity and substantially enhanced the electro catalytic activity for CBZ sensing. The electrochemical characterization of G-Ni/C towards CBZ determination was conducted by cyclic voltammetry (CV) and differential pulse voltammetry (DPV) . The sensor based on G-Ni/C/GCE exhibits good electroanalytical activity towards the electro-oxidation of CBZ at the potential of + 0.6 V vs Ag/AgCl. Some key factors including sample pH, scan rates, accumulation potential, and accumulation time were investigated. The method offered a wide linear range of 0.04 to 10.0 µM with a detection limit of 8.9 nM. The obtained sensor was successfully employed for the determination of CBZ in pond water and juice samples with RSD
doi_str_mv	10.1007/s00604-022-05526-9
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The combination of graphene and Ni-doping nanoporous carbon not only prevented the aggregation of graphene, but also improved electric conductivity and substantially enhanced the electro catalytic activity for CBZ sensing. The electrochemical characterization of G-Ni/C towards CBZ determination was conducted by cyclic voltammetry (CV) and differential pulse voltammetry (DPV) . The sensor based on G-Ni/C/GCE exhibits good electroanalytical activity towards the electro-oxidation of CBZ at the potential of + 0.6 V vs Ag/AgCl. Some key factors including sample pH, scan rates, accumulation potential, and accumulation time were investigated. The method offered a wide linear range of 0.04 to 10.0 µM with a detection limit of 8.9 nM. The obtained sensor was successfully employed for the determination of CBZ in pond water and juice samples with RSD < 5.7% and recoveries in the range 91.3–111%. Graphical Abstract In the present work, Ni-doping nanoporous carbon-graphene composite (G-Ni/C) was prepared by directly pyrolysis of GO/Ni-MOF. 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The combination of graphene and Ni-doping nanoporous carbon not only prevented the aggregation of graphene, but also improved electric conductivity and substantially enhanced the electro catalytic activity for CBZ sensing. The electrochemical characterization of G-Ni/C towards CBZ determination was conducted by cyclic voltammetry (CV) and differential pulse voltammetry (DPV) . The sensor based on G-Ni/C/GCE exhibits good electroanalytical activity towards the electro-oxidation of CBZ at the potential of + 0.6 V vs Ag/AgCl. Some key factors including sample pH, scan rates, accumulation potential, and accumulation time were investigated. The method offered a wide linear range of 0.04 to 10.0 µM with a detection limit of 8.9 nM. The obtained sensor was successfully employed for the determination of CBZ in pond water and juice samples with RSD < 5.7% and recoveries in the range 91.3–111%. Graphical Abstract In the present work, Ni-doping nanoporous carbon-graphene composite (G-Ni/C) was prepared by directly pyrolysis of GO/Ni-MOF. 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The combination of graphene and Ni-doping nanoporous carbon not only prevented the aggregation of graphene, but also improved electric conductivity and substantially enhanced the electro catalytic activity for CBZ sensing. The electrochemical characterization of G-Ni/C towards CBZ determination was conducted by cyclic voltammetry (CV) and differential pulse voltammetry (DPV) . The sensor based on G-Ni/C/GCE exhibits good electroanalytical activity towards the electro-oxidation of CBZ at the potential of + 0.6 V vs Ag/AgCl. Some key factors including sample pH, scan rates, accumulation potential, and accumulation time were investigated. The method offered a wide linear range of 0.04 to 10.0 µM with a detection limit of 8.9 nM. The obtained sensor was successfully employed for the determination of CBZ in pond water and juice samples with RSD < 5.7% and recoveries in the range 91.3–111%. Graphical Abstract In the present work, Ni-doping nanoporous carbon-graphene composite (G-Ni/C) was prepared by directly pyrolysis of GO/Ni-MOF. The electrochemical sensor based on G-Ni/C /GCE was applied for sensitive determination of carbendazim (CBZ) in pond water, peach, and lemon juices samples.</abstract><cop>Vienna</cop><pub>Springer Vienna</pub><pmid>36416956</pmid><doi>10.1007/s00604-022-05526-9</doi><orcidid>https://orcid.org/0000-0002-9366-3668</orcidid></addata></record>
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subjects	Accumulation Analytical Chemistry Carbon Carbon - chemistry Catalytic activity Characterization and Evaluation of Materials Chemical sensors Chemistry Chemistry and Materials Science Doping Electric properties Electrical conductivity Electrical resistivity Electrochemical analysis Electrochemical Techniques - methods Electrode materials Graphene Graphite Graphite - chemistry Microengineering Nanochemistry Nanotechnology Nickel Original Paper Oxidation Ponds Porosity Pyrolysis Sensors Voltammetry Water
title	An electrochemical sensor based on MOF-derived porous carbon/graphene composite for sensitive determination of carbendazim
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