Electrochemical Synthesis of Lutetium (III) Hexacyanoferrate/poly(taurine) Modified Glassy Carbon Electrode for the Sensitive Detection of Sulfite in Tap Water

The well-defined Lutetium (III) hexacyanoferrate microparticles were electrodeposited on poly(taurine) modified glassy carbon elec-trode(GCE),namely(LuHCF/poly(taurine)-GCE).Theas-fabricatedLuHCF/poly(taurine)-GCEpossessesexcellentelectrochemicalactivitiesandhighsensitivitytowardthesensingofsulfite.TheelectrochemicaloxidationofsulfiteonLuHCF/poly(taurine)-GCEisstudiedbyusingCyclicVoltammetry(CV),andDifferentialPulseVoltammetrytechniques(DPV).Remarkably,thereported modified electrode exhibits high sensitivity (448 μ A mM − 1 cm − 2 ) and limit of detection (1.33 μ M) toward the electrochemical oxidation of sulfite with superior selectivity and practicability. © 2018.

[1]  K. Pandi,et al.  Electrochemical synthesis of poly(3,4-ethylenedioxythiophene) on terbium hexacyanoferrate for sensitive determination of tartrazine , 2018 .

[2]  Z. Wen,et al.  Sulfonic Groups Originated Dual-Functional Interlayer for High Performance Lithium-Sulfur Battery. , 2017, ACS applied materials & interfaces.

[3]  V. B. Nascimento,et al.  In-line electrochemical reagent generation coupled to a flow injection biamperometric system for the determination of sulfite in beverage samples. , 2016, Food chemistry.

[4]  Chi-Chang Hu,et al.  Simultaneous and Selective Detection of Environment Hazardous Metals in Water Samples by Using Flower and Christmas Tree Like Cerium Hexacyanoferrate Modified Electrodes , 2015 .

[5]  H. Strauss,et al.  Native sulfur, sulfates and sulfides from the active Campi Flegrei volcano (southern Italy): Genetic environments and degassing dynamics revealed by mineralogy and isotope geochemistry , 2015 .

[6]  Shen-ming Chen,et al.  An electrochemical approach: Switching Structures of rare earth metal Praseodymium hexacyanoferrate and its application to sulfite sensor in Red Wine , 2015 .

[7]  Shen-ming Chen,et al.  Controlled electrochemical synthesis of yttrium (III) hexacyanoferrate micro flowers and their composite with multiwalled carbon nanotubes, and its application for sensing catechin in tea samples , 2015, Journal of Solid State Electrochemistry.

[8]  Xiangzhi Song,et al.  A colorimetric and ratiometric fluorescent probe for sulfite based on an intramolecular cleavage mechanism. , 2014, Luminescence : the journal of biological and chemical luminescence.

[9]  Shen-ming Chen,et al.  An enhanced direct electrochemistry of glucose oxidase at poly(taurine) modified glassy carbon electrode for glucose biosensor , 2014 .

[10]  Shen-ming Chen,et al.  Investigation of morphologies and characterization of rare earth metal samarium hexacyanoferrate and its composite with surfactant intercalated graphene oxide for sensor applications , 2014 .

[11]  Xingguo Chen,et al.  Colorimetric Detection of Sulfite in Foods by a TMB-O2-Co3O4 Nanoparticles Detection System. , 2014, Journal of agricultural and food chemistry.

[12]  Shengyong Yan,et al.  A new fluorescent turn-on probe for highly sensitive and selective detection of sulfite and bisulfite , 2014 .

[13]  A. Ensafi,et al.  A new voltammetric sensor for the determination of sulfite in water and wastewater using modified-multiwall carbon nanotubes paste electrode , 2013 .

[14]  B. Rezaei,et al.  DNA-based biosensor for comparative study of catalytic effect of transition metals on autoxidation of sulfite. , 2013, Analytical chemistry.

[15]  Ke-Jing Huang,et al.  Glassy carbon electrode modified with poly(taurine)/TiO2-graphene composite film for determination of acetaminophen and caffeine , 2013 .

[16]  Chandra Shekhar Pundir,et al.  An electrochemical sulfite biosensor based on gold coated magnetic nanoparticles modified gold electrode. , 2012, Biosensors & bioelectronics.

[17]  M. Aguirre,et al.  Electrochemical Oxidation of Sulfite in Aqueous Solution by Glassy Carbon Electrode Modified with Polymeric Co(II) Meso-Tetrakis (2-Thienyl)Porphyrin , 2012, International Journal of Electrochemical Science.

[18]  R. Hänsch,et al.  A fast and sensitive HPLC method for sulfite analysis in food based on a plant sulfite oxidase biosensor. , 2010, Biosensors & bioelectronics.

[19]  C. Brett,et al.  Electrochemical impedance studies of chitosan-modified electrodes for application in electrochemical sensors and biosensors , 2010 .

[20]  Yan Wang,et al.  A novel poly(taurine) modified glassy carbon electrode for the simultaneous determination of epinephrine and dopamine. , 2009, Colloids and surfaces. B, Biointerfaces.

[21]  I. Suni Impedance methods for electrochemical sensors using nanomaterials , 2008 .

[22]  D. Davey,et al.  Rapid microstill determination of free and total sulfite in wine with conductimetric detection. , 2007, Analytica chimica acta.

[23]  T. Nyokong,et al.  Electrocatalysis of asulam on cobalt phthalocyanine modified multi-walled carbon nanotubes immobilized on a basal plane pyrolytic graphite electrode , 2006 .

[24]  Nicole Jaffrezic-Renault,et al.  A disposable immunomagnetic electrochemical sensor based on functionalised magnetic beads on gold surface for the detection of atrazine , 2006 .

[25]  S. Hassan,et al.  A novel spectrophotometric method for batch and flow injection determination of sulfite in beverages. , 2006, Analytica chimica acta.

[26]  M. Masár,et al.  Determination of total sulfite in wine. Zone electrophoresis-isotachophoresis quantitation of sulfate on a chip after an in-sample oxidation of total sulfite. , 2005, Journal of chromatography. A.

[27]  D. R. Shankaran,et al.  Electrochemical Sensor for Sulfite and Sulfur Dioxide Based on 3-Aminopropyltrimethoxysilane Derived Sol-Gel Composite Electrode , 2004 .

[28]  K. Rajeshwar,et al.  Metal Hexacyanoferrates: Electrosynthesis, in Situ Characterization, and Applications , 2003 .

[29]  R. Carballo,et al.  Determination of sulfite by flow injection analysis using a poly[Ni-(protoporphyrin IX)] chemically modified electrode , 2003 .

[30]  A. Padarauskas,et al.  Capillary electrophoretic determination of sulfite using the zone-passing technique of in-capillary derivatization. , 2001, Journal of chromatography. A.

[31]  I. Karube,et al.  Measurement of Sulfite Using Sulfite Oxidase and Luminol Chemiluminescence , 1997 .