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An electrochemical sensor based on hierarchical nickel oxide nanostructures doped with indium ions for voltammetric simultaneous determination of sunset yellow and tartrazine colorants in soft drink powders

Mohammad Mehdi Moarefdoust, Shohreh Jahani, Mehran Moradalizadeh, Mohammad Mehdi Motaghi, Mohammad Mehdi Foroughi

2021Analytical Methods56 citationsDOI

Abstract

/NiO RLHNSs to co-detect both the food colorants, thus providing oxidation peaks in differential pulse voltammetry (DPV) with a peak potential separation of ca. 190 mV. The results showed a 5.14-fold and 8.07-fold increase in the electrochemical response of our modified electrode to sunset yellow and tartrazine, respectively, compared to the control (the unmodified electrode). Limits of detection of 2.7 and 3.1 nM were calculated for sunset yellow and tartrazine, respectively. The results from the interaction of common food additives showed satisfactory outcomes for the application of this method in determining sunset yellow and tartrazine in several beverage specimens. Other useful documentation was obtained for the production of portable food additive sensors.

Topics & Concepts

TartrazineNickel oxideNickelElectrochemistryIndiumDopingSoft drinkMaterials scienceIonNanostructureElectrochemical gas sensorCopper indium gallium selenide solar cellsMercury (programming language)Inorganic chemistryChemistryNanotechnologyNuclear chemistryElectrodeOptoelectronicsMetallurgyChromatographyComputer scienceFood scienceOrganic chemistryThin filmPhysical chemistryProgramming languageDye analysis and toxicityBiochemical Analysis and Sensing TechniquesAdvanced Chemical Sensor Technologies
An electrochemical sensor based on hierarchical nickel oxide nanostructures doped with indium ions for voltammetric simultaneous determination of sunset yellow and tartrazine colorants in soft drink powders | Litcius