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Palladseïte

Palladseite, a new mineral from Itabira, Minas Gerais, Brazil

Published online by Cambridge University Press:  05 July 2018

R. J. Davis
Affiliation:
Department of Mineralogy, British Museum (Natural History), Cromwell Road, London SW7 5BD
A. M. Clark
Affiliation:
Department of Mineralogy, British Museum (Natural History), Cromwell Road, London SW7 5BD
A. J. Criddle
Affiliation:
Department of Mineralogy, British Museum (Natural History), Cromwell Road, London SW7 5BD

Abstract

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Type
Other
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1977

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References

References

Blount, (A. M.), 1974. Am. Minera1., 59, 41–47.Google Scholar
D'Amour, (E.), 1976. Acta Crystallogr. B32, 729–740.CrossRefGoogle Scholar
Kampf, (A. R.), and Moore, (P. B.), 1976. Am. Minera1, 61, in the press,Google Scholar
Moore, (P.B.), 1974. Am. Minera1., 59, 48–59.Google Scholar
Skvortsova, (K. V.), Siderenko, (G. A.), Nesterova (Yu. S.), Arapova, (G. A.), Dara, (A. D.), and Rybakova, (L. I.). 1972. Internat. Geol. Rev., 14, 473–480.CrossRefGoogle Scholar
Wang, (R.), Bradley, (W. F.), and Steinfink, (H.), 1965. Acta Crystallogr., 18, 249–252.CrossRefGoogle Scholar
Wedepohl, (K. H.)(ed.), 1972. Hand book of Geochemistry, ll/3, Springer-Verlag (Berlin), 13-A-I -13-A-24.CrossRefGoogle Scholar

Bibliography and References

1818a Berzelius, (J.J.). Afh. Fys, Kemi, Mineral. 6, 42–144. In Swedish ; transl. in : Ann. Chim. Phys., 1818, 9, 160–180, 225-267, 337–565; J. Chem. phys. (Schweigger). 1818, 23, 309–344, 430-484; Ann. Philos. 1819, (i), 13, 401–412; (i), 14, 97–106, 257-265, 420–427 ; (i), 15, 16–27 ; Ann. Mines, 1819, (i), 4, 301–316.Google Scholar
1818b Berzelius, (J.J.), Acad. Hadl. Stockholm, 39, 13–22.Google Scholar
1829 Zincken, (C.). Ann. Phys. Chem. (Poggendorff), 16, 491–498.CrossRefGoogle Scholar
1876 Roessler, (H.). Ann. Chemo (Liebig), 180, 240–745.CrossRefGoogle Scholar
1895 Roessler, (F.). Z. anorg. Chem., 9, 31–77.CrossRefGoogle Scholar
1925 Moser, (L.) and Atynsky, (K.). Menatsh. Chem., 54, 255–250.Google Scholar
1929 Thomassen, (L.). Z. phys. Chem., 2, B, 349–379.Google Scholar
1930 Meller, (J.W.). A Comprehensive Treatise on Inorganic and Theoretical Chemistry, (Longmans, London) 10, 801, 808.Google Scholar
1933 Wohler, (L.), Ewald, (K.) and Krall, (H.G.). Ber. dtsch. chem. Ges., 66, B, 1658-1652.CrossRefGoogle Scholar
1938 Gmelin Handbuch der Anorganischen Chemic, (Verlag Chemic G.m.b.H., Berlin), 8 Auflage, System Nummer 65, Palladium, 296-297.Google Scholar
1956 Gronvold, (F.) and Root, (E.). Acta Chem. Scand., 10, 1620-1634.Google Scholar
1957 Gronvold, (F.) and Root, (E.). Acta Cryst. 10, 329–331.CrossRefGoogle Scholar
1957 Schubert, (K.), Breimer, (H.), Burkhardt, (W.), Gunzel, (E.), Haufler, (R.), Lukas, (H.L.), Vetter, (H.), Wegst, (J.), and Wilkens, (M.). Naturwiss., 44, 229–230.CrossRefGoogle Scholar
1957 Anderko, (K.), ed. The Constitution of Binary Alloys. (phd edition of M. Hansen's Der Aufbau der Zweistofflegierungen). (McGraw-Hill, New York, 1958), 1125.Google Scholar
1958 Matthias, (B.T.) and Geller, (S.). J. Phys. Chem. Solids, 4, 318–319.CrossRefGoogle Scholar
1958 Ignat'ev, (E.S.) and Plaskin, (I.N.). Isv. Vyssh. Uchebn. Zaved. Tavetn, Met., (1), 90–94. In Russiab ; cf. Chem. Abstr. 1959, 53, 8986b.Google Scholar
1960 Fillipov, (A.A.) and Smirnov, (V.I.). ibid., 3. (6), 55-64. In Russian ; cf. Chem. Abstr. 1961 , 55. 1822d.Google Scholar
1960 Kjekshus, (A.). Acta Chem. Stand., 14, 1625-1626.Google Scholar
1961 Taimni, (I.K.) and Rakshpal, (R.). Anal. Chim. Acta, 25, 438–447.CrossRefGoogle Scholar
1961 Kulifay, (S.M.). J. Am. Chem. Soc., 83, 4916-4919 ; cf. U.S. Patent 3026175, 1962 : cf. Chem. Abstr. 1962, 57, P627e.CrossRefGoogle Scholar
1961 Elliott, (R.P.), ed. First Supplement to K. Anderko's The Constitution of Binary Alloys, (McGraw-Hill, New York, (1965), 731.Google Scholar
1962 Gronvold, (F.) and Rost, (E.). Acts Cryst. 15, 711–713.Google Scholar
1962 Geller, (S.). Acta Cryst. 15, 713–721.CrossRefGoogle Scholar
1964 Buketov, (E.A.), Ugorets, (M.Z.) and Pashinskin, (A.S.), Zh. Neorg. Khim., 9 (3), 526–529. In Russian; translation in Russ. J. Inorg. Chem., 1964, 9, 292–294.Google Scholar
1964 Shunk, (F.A.), ed. Second Supplement to K. Anderko's 'The Constitution of Binary Alloys' (McGraw-Hill, New York, 1969), 609.Google Scholar
1964 Dolivo-Dobrovol'skii, (V.V.). Khim. Anal. Tsvetn. Redikh Metal., Akad. Nauk SSSR, Sibirsk. Otd., Khim-Met. Inst., 144-155. In Russian ; of. Chem. Abstr. 1965, 63, 2668f.Google Scholar
1965 Wright, (W.D.). The Measurement of Colour 3rd ed. (Hilger and Watts Ltd., London).Google Scholar
1965 Greiver, (T.N.). Tsvetn, Metal., 38 (1), 28-53. In Russian ; English translation in Soviet Metals (New York), 1965, 27-32.Google Scholar
1965 Raub, (C.J.). Compton, (V.B.). Geballe, (T.H.), Metthlas, (B.T.). Maita, (J.P.), and Hull (G.W.Jr). J. Phys. Chem. Solids, 26, 2051.CrossRefGoogle Scholar
1969 Gronvold, (F.), Westrum (E.E.Jr.) and Radebaugh, (R.). J. Chem. Eng. Data, 14. (2), 205-207.Google Scholar
1969 Mason, (P.K.), Frost, (M.T.), and Reed, (S.J.B.). Nat. Phys. Lab. I.M.S. Rep. 1.Google Scholar
1970 Johan, (Z.), Picot, (P.), Pierrot, (R.) and Verbeek, (T.). Bull. Soc. fr. Mineral. Cristallogr. 93, 476–481.Google Scholar
1979 Donnay, (J.D.H.) and Ondik, (H.). Crystal Data : Determinative Tables, 2, Inorganic Cpds., (3rd ed. J.C.P.D.S., U.S.A.), p.C. 310.Google Scholar
1975 Clark, (A.M.), Criddle, (A.J.), and Fejer, (E.E.). Mineral. Mag. 39, 528–543.CrossRefGoogle Scholar
1975 Bowie, (S.H.U.), SimpSon, (P.R.) and Atkin, (D.). Fertschr. Mineral., 52, Spec. Isle : IMA . Papers 9th Meeting, Berlin - Regensburg, 1974, 567-582.Google Scholar

References

Basu, (A.) and Vitalize, (C.J.), 1976. Sanidine from the Mesa Falls Tuff, Ashton, Idaho. Am. Mineral. 61, 405–8.Google Scholar
Crosby, (P.), 1971. Composition and structural state of alkali feldspars from charnonkitie rocks on Whiteface Mountain, New York. Am. Mineral. 56, 1788-811.Google Scholar
Delbove, (F.), 1975. Excess Gibbs energy of microcline-lew albite alkali feldspars at 800°C and 1 bar, based on fused alkali bromide ion-exchange experiments. Am. Mineral. 60, 972–84.Google Scholar
Guidotti, (C.V.), Herd, (H.H.), and Tuttle, (C.L.), 1973. Composition and structural state of K-feldspars from K-feldspar + sillimanite grade rocks in northwestern Maine. Am. Mineral. 58, 705–16.Google Scholar
Gubser, (R.) and Laves, (F.), 1967. On X-ray properties of "adularia", (K,Na)AlSi3O8, Schweia. Mineral. Petrogr. Mitt. 47, 177–88.Google Scholar
Kroll, (H.), 1971. Determinatlon of Al,Si distribution alkali feldspars from X-ray powder data. Neues Jahrb. Mineral., Monatsh. 91-4.Google Scholar
Luth, (W.C.), 1974. Analysis of experimental data on alkali feldspars: unit cell parameters and solvi. In MacKenzie W.S. and Zussman, (J.), eds. The feldspars: Proceedings of a NATO Advanced study Institute (Manchester 11-21 July 1972). (Manchester University Press. Crane, Rusask & Company, Inc., New York). 249-96.Google Scholar
Luth, (W.C.), Martin, (R.F.), and Fenn, (P.M.), 1974. Peralkaline alkali feldspar solvi. Ibid. 297 312.Google Scholar
Martin, (B.R.), 1971. Statistics for physicists. Academic Press (London).Google Scholar
Martin, (R.F.), 1974. The alkali feldspar solvus: the case for a first-order break on the K-limb. Bull. Soc. fr. Mineral. Crist. 97, 346–55.Google Scholar
Smith, (J.V.), 1968. Cell dimensions b*, c*, a*, y* of alkali feldspars permit qualitative estimates of Si,A1 ordering: albite ordering process (abstr.). Geol. Soc. Am. Abstr. Progr., Mexico City, 283.Google Scholar
Smith, (J.V.), 1974. Feldspar Minerals. Vol. 1. Crystal Structure and Physical Properties. Springer-Verlag (Berlin).Google Scholar
Stewart, (D.B.), 1973. Lattice parameters, composition, and Al/Si order in alkali feldspar. In Ribbe, (P.H.), ed. Feldspar Mineralogy: Mineralogical Society of America, Short Course Notes. Min. Soc. Am., Washington, D.C., pp. Stl-St22.Google Scholar
Stewart, (D.B.), and Ribbe, (P.H.), 1969. Structural explanation for variation in cell parameters of alkali feldspar with Al/Si ordering. Am. J. S. 267-A, 444-62.Google Scholar
Stewart, (D.B.), and Wright, (T.L.), 1974. Al/Si order and symmetry of natural alkali feldspars, and the relationship of strained cell patterers to bulk composition. Bull. Soc. fr. Mineraul, Crist. 97, 356–77.Google Scholar
Ribbe, (P.H.), 1975. The chemistry, structures and nomenclature of feldspars. In Ribbe, (P.H.), ed. Feldspar Mineralogy: Mineralogical society of America, Short Course Notes. Min. See. Am., Washington, D.C., pp. R1-R52.CrossRefGoogle Scholar