References
- Belzile, N., Chen, Y.W., Cai, M.F., and Li, Y., 2004, “A review on pyrrhotite oxidation.” Journal of Geochemical Exploration, 84, pp. 65–76.
- Chen, Y.W., Li, Y., Cai, M.F., Belzile, N., and Dang, Z., 2006, “Preventing oxidation of iron sulfide minerals by polyethylene polyamines.” Mineral Engineering, 19, pp. 19–27.
- Chirita, P. and Descostes, M., 2006a, “Anoxic dissolution of troilite in acidic media.” Journal of Colloid Interface Science, 294, pp. 376–384.
- Chirita, P. and Descostes, M., 2006b, “Troilite oxidation by hydrogen peroxide.” Journal of Colloid Interface Science, 299, pp. 260–269.
- Chirita, P., Descostes, M., and Schlegel, M.L., 2008, “Oxidation of FeS by oxygen-bearing acidic solutions.” Journal of Colloid Interface Science, 321, pp. 84–95.
- Chirita, P. and Rimstidt, J.D., 2014, “Pyrrhotite dissolution in acidic media.” Applied Geochemistry, 41, pp. 1–10.
- Chirita, P. and Schlegel, M.L., 2012, “The oxidation of iron monosulfide (FeS) with O2-bearing solutions in air-tight reactor.” Experimental Mineralogy Petrology and Geochemistry, 04-07 March, Kiel, Germany.
- Chirita, P. and Schlegel, M.L., 2015, “Oxidative dissolution of iron monosulfide (FeS) in acidic conditions: The effect of solid pretreatment.” International Journal of Mineral Processing, 135, pp. 57–64.
- Chirita, P., 2009, “Hydrogen peroxide decomposition by pyrite in the presence of Fe(III)-ligands.” Chemical and Biochemical Engineering Quarterly, 23, pp. 259–265.
- Constantin, C.A. and Chirita, P., 2013, “Oxidative dissolution of pyrite in acidic media.” Journal of Applied Electrochemistry, 43, pp. 659–666.
- Janzen, M.P., Nicholson, R.V., and Scharer, J.M., 2000, “Pyrrhotite reaction kinetics: Reaction rates for oxidation by oxygen, ferric iron, and for anoxic dissolution.” Geochimicaet et Cosmochimica Acta, 64, pp. 1511–1522.
- Kamei, G. and Ohmoto, H., 2000, “The kinetics of reactions between pyrite and O2-bearing water revealed from in situ monitoring of DO, Eh and pH in a closed system.” Geochimicaet et Cosmochimica Acta, 64, pp. 2585–2601.
- Langman, J.B., Blowes, D.W., Veeramani, H., Wilson, D., Smith, L., Sego, D.C., and Paktunc, D., 2015, “The mineral and aqueous phase evolution of sulfur and nickel with weathering of pyrrhotite in a low sulfide, granitic waste rock.” Chemical Geology, 401, pp. 169–179.
- Mikhlin, Yu.L., Kuklinskiy, A.V., Pavlenko, N.I., Varnek, V.A., Asanov, I.P., Okotrub, A.V., Selyutin, G.E., and Solovyev, L.A., 2002, “Spectroscopic and XRD studies of the air degradation of acid-reacted pyrrhotite.” Geochimica et Cosmochimica Acta, 66, pp. 4057–4067.
- Nacu, A., Mocanu, R., Onofrei, T., Gaburici, M., Simion, C., Matei, F., Balba, D., Dulman, V., and Doniga, E., 1988, Chimie Analitica si Analiza Instrumentala, Iasi: Editura Institutului Politehnic Iasi.
- Pratt, A.R. and Nesbitt, H.W., 1997, “Pyrrhotite leaching in acid mixtures of HCl and H2SO4.” American Journal of Science, 297, pp. 807–820.
- Skinner, W.M., Nesbitt, H.W., and Pratt, A.R., 2004, “XPS identification of bulk hole defects and itinerant Fe 3d electrons in natural troilite (FeS).” Geochimica et Cosmochimica Acta, 68, pp. 2259–2263.
- Sobanska, S., Deneele, D., Barbillat, J., and Ledesert, B., 2016, “Natural weathering of slags from primary Pb–Zn smelting as evidenced by Raman microspectroscopy.” Applied Geochemistry, 64, pp. 107–117.
- Thomas, J.E., Jones, C.F., Skinner, W.M., and Smart, R.St.C., 1998, “The role of surface sulfur species in the inhibition of pyrrhotite dissolution in acid conditions.” Geochimica et Cosmochimica Acta, 62, pp. 1555–1565.
- Thomas, J.E., Skinner, W.M., and Smart R.St.C., 2001, “A mechanism to explain sudden changes in rates and products for pyrrhotite dissolution in acid solution.” Geochimica et Cosmochimica Acta, 65, pp. 1–12.
- Thomas, J.E., Skinner, W.M., and Smart, R.St.C., 2003, “A comparison of the behavior of troilite with other iron(II) sulfides; implications of structure.” Geochimica et Cosmochimica Acta, 67, pp. 831–843.