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Nestola, F., Mills, S. J., Periotto, B., Scandolo, L. (2013) The alunite supergroup under high pressure: the case of natrojarosite, NaFe3(SO4)2(OH)6. Mineralogical Magazine, 77 (7) 3007-3017 doi:10.1180/minmag.2013.077.7.10

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Reference TypeJournal (article/letter/editorial)
TitleThe alunite supergroup under high pressure: the case of natrojarosite, NaFe3(SO4)2(OH)6
JournalMineralogical Magazine
AuthorsNestola, F.Author
Mills, S. J.Author
Periotto, B.Author
Scandolo, L.Author
Year2013 (October)Volume77
Page(s)3007-3017Issue7
PublisherMineralogical Society
DOIdoi:10.1180/minmag.2013.077.7.10Search in ResearchGate
Mindat Ref. ID244457Long-form Identifiermindat:1:5:244457:8
GUIDb11b509e-5b27-490d-97d6-1005ca713000
Full ReferenceNestola, F., Mills, S. J., Periotto, B., Scandolo, L. (2013) The alunite supergroup under high pressure: the case of natrojarosite, NaFe3(SO4)2(OH)6. Mineralogical Magazine, 77 (7) 3007-3017 doi:10.1180/minmag.2013.077.7.10
Plain TextNestola, F., Mills, S. J., Periotto, B., Scandolo, L. (2013) The alunite supergroup under high pressure: the case of natrojarosite, NaFe3(SO4)2(OH)6. Mineralogical Magazine, 77 (7) 3007-3017 doi:10.1180/minmag.2013.077.7.10
Abstract/NotesAbstractA single crystal of natrojarosite, NaFe3(SO4)2(OH)6, was investigated by single-crystal X-ray diffraction at high-pressure conditions (up to 8.8 GPa) using a diamond-anvil cell. The unit-cell parameters were determined at 11 different pressures and no indications of a phase transition were found up to the maximum pressure reached. The volume and axial moduli were fitted to a third-order Birch–Murnaghan equation-of-state which gave the following values: V0 = 769.6(2) Å3, KT0 = 50.6(9) GPa, K' = 9.9(4); a = 7.3172(6) Å, KT0 = 104(2), K' = 7.6(9); c = 16.5965(20) Å, KT0 = 24.6(4) and K' = 7.1(2). The crystal structure of natrojarosite was refined at seven different pressures up to 8.779(11) GPa [a = 7.3170(4), c = 16.5955(5) Å and V = 769.46(9) Å3 in Rm at 0.00010(1) GPa and a = 7.1594(8), c = 15.6003(17) Å and V = 692.49(8) Å3 at 8.779(11) GPa]. The structural analysis shows that the 12-fold Na polyhedron accommodates most of the deformation by a large volume decrease (14%) and strong polyhedral distortion (63%). Our results indicate that natrojarosite has the most compressible structure of the supergroup studied so far, and has a very strong axial anisotropy.

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Nestola, F., Mills, S.J., Periotto, B., Scandolo, L. (2013): The alunite supergroup under high pressure: the case of natrojarosite, NaFe3(SO4)2(OH)6. Mineralogical Magazine 77, 3007-3017.
Mills, S. J., Nestola, F. (2012) Elasticity and high-pressure structure of arsenoflorencite-(La): insights into the high-pressure behaviour of the alunite supergroup. Mineralogical Magazine, 76 (4) 975-985 doi:10.1180/minmag.2012.076.4.13
Mills, S.J., Nestola, F. (2012) Elasticity and high-pressure structure of arsenoflorencite-(La): insights into the high-pressure behaviour of the alunite supergroup. Mineralogical Magazine: 76(4): 975–985.
Nestola, F., Periotto, B., Anzolini, C., Andreozzi, G. B., Woodland, A. B., Lenaz, D., Alvaro, M., Princivalle, F. (2015) Equation of state of hercynite, FeAl2O4, and high-pressure systematics of Mg-Fe-Cr-Al spinels. Mineralogical Magazine, 79 (2) 285-294 doi:10.1180/minmag.2015.079.2.07
Biagioni, C., Orlandi, P., Nestola, F., Bianchin, S. (2013) Oxycalcioroméite, Ca2Sb2O6O, from Buca della Vena mine, Apuan Alps, Tuscany, Italy: a new member of the pyrochlore supergroup. Mineralogical Magazine, 77 (7) 3027-3037 doi:10.1180/minmag.2013.077.7.12
Ardit, M., Cruciani, G., Dondi, M., Garbarino, G. L., Nestola, F. (2014) Phase transitions during compression of thaumasite, Ca3Si(OH)6(CO3)(SO4)·12H2O: A high-pressure synchrotron powder X-ray diffraction study. Mineralogical Magazine, 78 (5) 1193-1208 doi:10.1180/minmag.2014.078.5.07
Mills, S. J., Grey, I. E. (2015) Nomenclature for the laueite supergroup. Mineralogical Magazine, 79 (2) 243-246 doi:10.1180/minmag.2015.079.2.02
Scandolo, L., Mazzucchelli, M. L., Alvaro, M., Nestola, F., Pandolfo, F., Domeneghetti, M. C. (2015) Thermal expansion behaviour of orthopyroxenes: the role of the Fe-Mn substitution. Mineralogical Magazine, 79 (1) 71-87 doi:10.1180/minmag.2015.079.1.07
Kasatkin, A. V., Nestola, F., Plášil, J., Marty, J., Belakovskiy, D. I., Agakhanov, A. A., Mills, S. J., Pedron, D., Lanza, A., Favaro, M., Bianchin, S., Lykova, I. S., Goliáš, V., Birch, W. D. (2013) Manganoblödite, Na2Mn(SO4)2·4H2O, and cobaltoblödite, Na2Co(SO4)2·4H2O: two new members of the blödite group from the Blue Lizard mine, San Juan County, Utah, USA. Mineralogical Magazine, 77 (3) 367-383 doi:10.1180/minmag.2013.077.3.10
Kampf, A. R., Mills, S. J., Nash, B. P. (2016) Pauladamsite, Cu4(SeO3)(SO4)(OH)4·2H2O, a new mineral from the Santa Rosa mine, Darwin district, California, USA. Mineralogical Magazine, 80 (6) 949-958 doi:10.1180/minmag.2016.080.032
Hålenius, U., Bosi, F. (2013) Oxyplumboroméite, Pb2Sb2O7, a new mineral species of the pyrochlore supergroup from Harstigen mine, Värmland, Sweden. Mineralogical Magazine, 77 (7) 2931-2939 doi:10.1180/minmag.2013.077.7.04
 
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