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Thermodynamic characterization of iron oxide–aqueous Fe<SUP>2+</SUP> redox couples
Gorski, C. A., Edwards, R., Sander, M., Hofstetter, T. B., & Stewart, S. M. (2016). Thermodynamic characterization of iron oxide–aqueous Fe2+ redox couples. Environmental Science and Technology, 50(16), 8538-8547. https://doi.org/10.1021/acs.est.6b02661
Electrochemical analyses of redox-active iron minerals: A review of nonmediated and mediated approaches
Sander, M., Hofstetter, T. B., & Gorski, C. A. (2015). Electrochemical analyses of redox-active iron minerals: A review of nonmediated and mediated approaches. Environmental Science and Technology, 49(10), 5862-5878. https://doi.org/10.1021/acs.est.5b00006
Redox properties of structural Fe in clay minerals: 3. Relationships between smectite redox and structural properties
Gorski, C. A., Klüpfel, L. E., Voegelin, A., Sander, M., & Hofstetter, T. B. (2013). Redox properties of structural Fe in clay minerals: 3. Relationships between smectite redox and structural properties. Environmental Science and Technology, 47(23), 13477-13485. https://doi.org/10.1021/es403824x
Coal fly ash as a source of iron in atmospheric dust
Chen, H., Laskin, A., Baltrusaitis, J., Gorski, C. A., Scherer, M. M., & Grassian, V. H. (2012). Coal fly ash as a source of iron in atmospheric dust. Environmental Science and Technology, 46(4), 2112-2120. https://doi.org/10.1021/es204102f
Fe atom exchange between aqueous Fe<sup>2+</sup> and magnetite
Gorski, C. A., Handler, R. M., Beard, B. L., Pasakarnis, T., Johnson, C. M., & Scherer, M. M. (2012). Fe atom exchange between aqueous Fe2+ and magnetite. Environmental Science and Technology, 46(22), 12399-12407. https://doi.org/10.1021/es204649a
Redox properties of structural Fe in clay minerals. 1. Electrochemical quantification of electron-donating and -accepting capacities of smectites
Gorski, C. A., Aeschbacher, M., Soltermann, D., Voegelin, A., Baeyens, B., Marques Fernandes, M., … Sander, M. (2012). Redox properties of structural Fe in clay minerals. 1. Electrochemical quantification of electron-donating and -accepting capacities of smectites. Environmental Science and Technology, 46(17), 9360-9368. https://doi.org/10.1021/es3020138
Redox properties of structural Fe in clay minerals. 2. Electrochemical and spectroscopic characterization of electron transfer irreversibility in ferruginous smectite, SWa-1
Gorski, C. A., Klüpfel, L., Voegelin, A., Sander, M., & Hofstetter, T. B. (2012). Redox properties of structural Fe in clay minerals. 2. Electrochemical and spectroscopic characterization of electron transfer irreversibility in ferruginous smectite, SWa-1. Environmental Science and Technology, 46(17), 9369-9377. https://doi.org/10.1021/es302014u
Influence of Fe<sup>2+</sup>-catalysed iron oxide recrystallization on metal cycling
Latta, D. E., Gorski, C. A., & Scherer, M. M. (2012). Influence of Fe2+-catalysed iron oxide recrystallization on metal cycling. Biochemical Society Transactions, 40(6), 1191-1197. https://doi.org/10.1042/BST20120161
Influence of magnetite stoichiometry on U<sup>VI</sup> reduction
Latta, D. E., Gorski, C. A., Boyanov, M. I., O'Loughlin, E. J., Kemner, K. M., & Scherer, M. M. (2012). Influence of magnetite stoichiometry on UVI reduction. Environmental Science and Technology, 46(2), 778-786. https://doi.org/10.1021/es2024912
Thermodynamics of the magnetite-ulvöspinel (Fe<sub>3</sub>O<sub>4</sub>-Fe<sub>2</sub>TiO<sub>4</sub>) solid solution
Lilova, K. I., Pearce, C. I., Gorski, C., Rosso, K. M., & Navrotsky, A. (2012). Thermodynamics of the magnetite-ulvöspinel (Fe3O4-Fe2TiO4) solid solution. American Mineralogist, 97, 1330-1338. https://doi.org/10.2138/am.2012.4076
Synthesis and properties of titanomagnetite (Fe<SUB>3</SUB>-<SUB><I>x</I></SUB>Ti<SUB><I>x</I></SUB>O<SUB>4</SUB>) nanoparticles: a tunable solid-state Fe(II/III) redox system
Pearce, C. I., Qafoku, O., Liu, J., Arenholz, E., Heald, S. M., Kukkadapu, R. K., … Rosso, K. M. (2012). Synthesis and properties of titanomagnetite (Fe3-xTixO4) nanoparticles: a tunable solid-state Fe(II/III) redox system. Journal of Colloid and Interface Science, 387(1), 24-38. https://doi.org/10.1016/j.jcis.2012.06.092
Assessing the redox properties of iron-bearing clay minerals using homogeneous electrocatalysis
Gorski, C. A., Sander, M., Aeschbacher, M., & Hofstetter, T. B. (2011). Assessing the redox properties of iron-bearing clay minerals using homogeneous electrocatalysis. Applied Geochemistry, 26(Suppl.), S191-S193. https://doi.org/10.1016/j.apgeochem.2011.03.101
Fe<sup>2+</sup> sorption at the Fe oxide-water interface: a revised conceptual framework
Gorski, C. A., & Scherer, M. M. (2011). Fe2+ sorption at the Fe oxide-water interface: a revised conceptual framework. In P. G. Tratnyek, T. J. Grundl, & S. B. Haderlein (Eds.), ACS symposium series: Vol. 1071. Aquatic redox chemistry (pp. 315-343). https://doi.org/10.1021/bk-2011-1071.ch015
Spectroscopic evidence for interfacial Fe(II)–Fe(III) electron transfer in a clay mineral
Schaefer, M. V., Gorski, C. A., & Scherer, M. M. (2011). Spectroscopic evidence for interfacial Fe(II)–Fe(III) electron transfer in a clay mineral. Environmental Science and Technology, 45(2), 540-545. https://doi.org/10.1021/es102560m