Crossref Cited-by Linking logo

Collect. Czech. Chem. Commun. 1995, 60, 1261-1273

Kinetics of Electrochemical Reductive Dissolution of Iron(III) Hydroxy-oxides

Tomáš Grygar

Institute of Inorganic Chemistry,Academy of Sciences of the Czech Republic, 250 68 Řež near Prague, Czech Republic

Crossref Cited-by Linking

  • Stojanov Leon, Vasilevski Hristijan, Makreski Petre, Jovanovski Gligor, Mirceski Valentin: Voltammetry of Solid Microparticles of Some Common Iron-and Copper-IronSulfide Minerals. International Journal of Electrochemical Science 2022, 17, 220346. <>
  • Doménech‐Carbó Antonio: Electrochemistry in Archaeology and Art Conservation. Israel Journal of Chemistry 2021, 61, 113. <>
  • Barlow Burke C., Situm Arthur, Guo Bao, Guo Xiaoxuan, Grosvenor Andrew P., Burgess Ian J.: X-ray microprobe characterization of corrosion at the buried polymer-steel interface. Corrosion Science 2018, 144, 198. <>
  • Toral-Sanchez Eduardo, Rangel-Mendez J. Rene, Chazaro-Ruiz Luis F.: Characterization of iron-modified carbon paste electrodes and their application in As(V) detection. J Appl Electrochem 2016, 46, 205. <>
  • Doménech-Carbó Antonio, Doménech-Carbó María Teresa, Valle-Algarra Francisco Manuel, Gimeno-Adelantado José Vicente, Osete-Cortina Laura, Bosch-Reig Francisco: On-line database of voltammetric data of immobilized particles for identifying pigments and minerals in archaeometry, conservation and restoration (ELCHER database). Analytica Chimica Acta 2016, 927, 1. <>
  • Hedenstedt Kristoffer, Simic Nina, Wildlock Mats, Ahlberg Elisabet: Kinetic study of the hydrogen evolution reaction in slightly alkaline electrolyte on mild steel, goethite and lepidocrocite. Journal of Electroanalytical Chemistry 2016, 783, 1. <>
  • Sander Michael, Hofstetter Thomas B., Gorski Christopher A.: Electrochemical Analyses of Redox-Active Iron Minerals: A Review of Nonmediated and Mediated Approaches. Environ. Sci. Technol. 2015, 49, 5862. <>
  • Dhaiveegan P., Elangovan N., Nishimura T., Rajendran N.: Electrochemical Characterization of Carbon and Weathering Steels Corrosion Products to Determine the Protective Ability Using Carbon Paste Electrode (CPE). Electroanalysis 2014, 26, 2419. <>
  • Moss Rachel E., Pérez-Roa Rodolfo E., Anderson Marc A.: Effects of pH on Phosphate Adsorption to Hematite as Studied with Cyclic Voltammetry and Electrochemical Impedance Spectroscopy. J. Electrochem. Soc. 2013, 160, H105. <>
  • Moss Rachel E., Jackowski Jennifer J., de Souza Castilho Michelle, Anderson Marc A.: Development and Evaluation of a Nanoporous Iron (Hydr)oxide Electrode for Phosphate Sensing. Electroanalysis 2011, 23, 1718. <>
  • Bromberg Lev, Chang Emily P., Hatton T. Alan, Concheiro Angel, Magariños Beatriz, Alvarez-Lorenzo Carmen: Bactericidal Core-Shell Paramagnetic Nanoparticles Functionalized with Poly(hexamethylene biguanide). Langmuir 2011, 27, 420. <>
  • Memon Mehruinsa, Memon Kazi Suleman, Akhtar Mohammad Saleem, Stüben Doris: Characterization and Quantification of Iron Oxides Occurring in Low Concentration in Soils. Communications in Soil Science and Plant Analysis 2009, 40, 162. <>
  • Doménech-Carbó Antonio, Doménech-Carbó María Teresa, Osete-Cortina Laura: Electrochemical Study of Iron Oxide Deposits in Weathered Archaeological Glass. International Journal of Electrochemical Science 2008, 3, 609. <>
  • Hrbac Jan, Halouzka Vladimir, Zboril Radek, Papadopoulos Kyriakos, Triantis Theodor: Carbon Electrodes Modified by Nanoscopic Iron(III) Oxides to Assemble Chemical Sensors for the Hydrogen Peroxide Amperometric Detection. Electroanalysis 2007, 19, 1850. <>
  • Doménech Antonio, Doménech‐Carbó María Teresa, Edwards Howell G. M.: Identification of Earth Pigments by Applying Hierarchical Cluster Analysis to Solid State Voltammetry. Application to Severely Damaged Frescoes. Electroanalysis 2007, 19, 1890. <>
  • Cepriá G., Hamida S., Laborda F., Castillo J. R.: Direct reduction of As(V) physically attached to a graphite electrode mediated by Fe(III). J Appl Electrochem 2007, 37, 1171. <>
  • Cepriá G., García-Gareta E., Pérez-Arantegui J.: Cadmium Yellow Detection and Quantification by Voltammetry of Immobilized Microparticles. Electroanalysis 2005, 17, 1078. <>
  • Cepriá G, Usón A, Pérez-Arantegui J, Castillo J.R: Identification of iron(III) oxides and hydroxy-oxides by voltammetry of immobilised microparticles. Analytica Chimica Acta 2003, 477, 157. <>
  • Cepriá G., Bolea E., Laborda F., Castillo J. R.: Quick, Easy, and Inexpensive Way to Detect Small Metallic Particles in Suspension Using Voltammetry of Immobilized Microparticles. Analytical Letters 2003, 36, 923. <>
  • Doménech A, Pérez-Ramı́rez J, Ribera A, Mul G, Kapteijn F, Arends I.W.C.E: Electrochemical characterization of iron sites in ex-framework FeZSM-5. Journal of Electroanalytical Chemistry 2002, 519, 72. <>
  • van Oorschot I.H.M, Grygar T, Dekkers M.J: Detection of low concentrations of fine-grained iron oxides by voltammetry of microparticles. Earth and Planetary Science Letters 2001, 193, 631. <>
  • van Oorschot I.H.M, Dekkers M.J: Dissolution behaviour of fine-grained magnetite and maghemite in the citrate–bicarbonate–dithionite extraction method. Earth and Planetary Science Letters 1999, 167, 283. <>
  • Grygar Tomáš: The electrochemical dissolution of iron(III) and chromium(III) oxides and ferrites under conditions of abrasive stripping voltammetry. Journal of Electroanalytical Chemistry 1996, 405, 117. <>