Methyl orange c14h14n3nao3s

Manufactured by Merck Group

Sourced in United States

Methyl orange (C14H14N3NaO3S) is a chemical compound that serves as a pH indicator. It is commonly used in analytical chemistry and laboratory applications to determine the acidity or basicity of a solution.

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Methyl orange C14H14N3NaO3S

5 protocols using methyl orange c14h14n3nao3s

Spectrophotometric Determination of Titanium

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Ammonium oxalate (C₂H₈N₂O₄; 99.5%), sodium bismuthate (NaBiO₃; 90%), ascorbic acid (HC₆H₇O₆), titanium(iii) chloride (TiCl₃) solution, sodium lauryl sulfate (NaC₁₂H₂₅SO₄), and methyl orange (C₁₄H₁₄N₃NaO₃S) were purchased from Sigma-Aldrich.

Tolan D.A., El-Sawaf A.K., Alhindawy I.G., Ismael M.H., Nassar A.A., El-Nahas A.M., Maize M., Elshehy E.A, & El-Khouly M.E. (2023). Effect of bismuth doping on the crystal structure and photocatalytic activity of titanium oxide. RSC Advances, 13(36), 25081-25092.

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Colorimetric Palladium Detection Protocol

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Orthophosphoric acid (H₃PO₄, ≥ 85%), ammonia solution (NH₄OH, ≥ 25%), and potassium iodide (KI, ≥ 99%) were acquired from Friedmann Schmidt. Potassium chloride (KCl, 99.5%) and ethanol (C₂H₅OH, 95%) were purchased from R&M. Palladium (II) chloride (PdCl₂, 99%) and methyl orange (C₁₄H₁₄N₃NaO₃S, C.I. 13025) were obtained from Sigma Aldrich. In all experiments, deionized water (DI water, 18.2 MΩ·cm) was utilized.

AZHAR A.L., MA’AMOR A., MUHD JULKAPLI N., SAIRI N.A, & NORAIZAT A.S. (2023). Ultraviolet-activated clamshell hydroxyapatite-substituted palladium in the photoreduction of methyl orange water pollutant. Turkish Journal of Chemistry, 47(3), 527-539.

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Synthesis of Metal Nitrate Complexes

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Aluminum nitrate nonahydrate (Al(NO₃)₃·9H₂O), magnesium nitrate hexahydrate (Mg(NO₃)₂·6H₂O), urea (CH₄N₂O), sodium bicarbonate (NaHCO₃), and methyl orange (C₁₄H₁₄N₃NaO₃S) were purchased from Sigma-Aldrich Co., LLC. (St. Louis, MO, USA). Sodium hydroxide (NaOH) in pellet form was purchased from Daejung Chemicals & Metals Co., Ltd. (Siheung, Republic of Korea). All reagents were used without further purification.

Yamaguchi T., Kim H.J., Park H.J., Kim T., Khalid Z., Park J.K, & Oh J.M. (2023). Controlling the Surface Morphology of Two-Dimensional Nano-Materials upon Molecule-Mediated Crystal Growth. Nanomaterials, 13(16), 2363.

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Photodegradation Evaluation of Metal-Doped Catalysts

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The chemicals and reagents included zinc acetate dehydrate ((CH₃COO)₂Zn·2H₂O) (Research lab, India, 98%), ethanol (C₂H₅OH) (Merck, Germany, 99.5%), copper (II) nitrate trihydrate (Cu(NO₃)₂·3H₂O) (Merck, India, 99%), sodium hydroxide (NaOH) (Merck, Germany, 98%), nitric acid (HNO₃) (Merck, Germany, 65%), nickel nitrate hexahydrate (Ni(NO₃)₂·6H₂O) (Merck, Germany, 95%), and acetone (C₃H₆O) (Merck, India, 99.5%). All chemicals were analytical grade and required no further purification. Methyl orange (C₁₄H₁₄N₃NaO₃S) (USA, dye content 85%) was utilized as a model dye to assess the photodegradation activity and purchased from Sigma-Aldrich. Ultrapure water was used as a solvent for preparing the solution throughout every experiment.

Al-Mamun M.R., Iqbal Rokon M.Z., Rahim M.A., Hossain M.I., Islam M.S., Ali M.R., Bacchu M.S., Waizumi H., Komeda T, & Hossain Khan M.Z. (2023). Enhanced photocatalytic activity of Cu and Ni-doped ZnO nanostructures: A comparative study of methyl orange dye degradation in aqueous solution. Heliyon, 9(6), e16506.

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Methyl Orange Degradation Optimization

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Analytical grade chemicals have been employed. Methyl Orange (C14H14N3NaO3S, dye content 85%, Sigma-Aldrich) played a role as model contaminant, whereas sodium sulfate (Karal) was added to ensure a high conductivity. Ferrous sulfate heptahydrate added as catalyst in EF and PEF was supplied by Fermont. All synthetic solutions were prepared with three-distilled water at room temperature (298  2 K). The pH of the solutions was adjusted with diluted NaOH and H 2 SO 4 solutions, both reagents acquired from Fermont. Carboxylic acids used as standards were from Sigma-Aldrich. The solvents used for high-performance liquid chromatography (HPLC) analysis were of chromatographic grade from Karal.

Márquez A.A., Sirés I., Brillas E, & Nava J.L. (2020). Mineralization of Methyl Orange azo dye by processes based on H₂O₂ electrogeneration at a 3D-like air-diffusion cathode. Chemosphere, 259.

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