f1, XIX.1.1 Simple oxo-compounds of chromium (oxochromates)

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Pies, W., Weiss, A.:  f1, XIX.1.1 Simple oxo-compounds of chromium (oxochromates). Hellwege, K.-H., Hellwege, A. M. (ed.). SpringerMaterials - The Landolt-Börnstein Database (http://www.springermaterials.com). DOI: 10.1007/10201577_2

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Source: Title f1, XIX.1.1 Simple oxo-compounds of chromium (oxochromates) Author W. Pies, A. Weiss Part of Landolt-Börnstein - Group III Condensed Matter Numerical Data and Functional Relationships in Science and Technology Volume 7f: Key Elements: d4–d8-Elements Edited by K.-H. Hellwege, A. M. Hellwege Chapter-DOI 10.1007/10201577_2 Book-DOI 10.1007/b19981 (Volume in Bookshelf)

Related Documents: Title, Preface, etc., Vol. III/7F f73, XIX.1.1 Simple oxo-compounds of chromium (oxochromates) f158, XIX.1.1 Simple oxo-compounds of chromium (oxochromates) f233, XIX.1.2 Simple oxo-compounds of chromium with H2O, NH3, – (oxochromates with H2O, NH3, –) f272, XIX.1.3 Hydroxo-compounds of chromium (hydroxochromates), XIX.1.4.1.1 Tetraoxochromates(VI) with Fe-, –, I- f284, XIX.1.4.1.2-3 Tetraoxochromates(VI) with Fe-, –, I- and H2O, NH3, tetraoxochromates(VI) with O(2-) as additional anion f293, XIX.1.4.1.4 Tetraoxochromates(VI) with O(2-) as additional anion and H2O, NH3 f300, XIX.1.4.1.5 Tetraoxochromates(VI) with OH- as additional anion f318, XIX.1.4.1.6 Tetraoxochromates(VI) with OH- as additional anion and H2O, NH3 f330, XIX.1.4.1.7 Tetraoxochromates(VI) with IO3(-), SO4(2-), PO4(3-), –, as further anions f345, XIX.1.4.2.1 Fluorooxochromates f359, XIX.1.4.2.2 Chlorooxochromates f366, XIX.1.5 Halogenothiochromates, halogenoselenochromates, and halogenotellurochromates f373, XIX.2.1 Simple oxo-compounds of molybdenum (oxomolybdates) f499, XIX.2.1 Simple oxo-compounds of molybdenum (oxomolybdates) f652, XIX.2.1 Simple oxo-compounds of molybdenum (oxomolybdates) f797, XIX.2.1 Simple oxo-compounds of molybdenum (oxomolybdates) f943, XIX.2.1 Simple oxo-compounds of molybdenum (oxomolybdates) f1044, XIX.2.2.1 Oxomolybdates with H2O f1154, XIX.2.2.2 Oxomolybdates with NH3, XIX.2.3.1.1 Anhydrous fluorooxomolybdates f1193, XIX.2.3.1.2 Fluorooxomolybdates with H2O f1200, XIX.2.3.2 Chloro- and bromooxomolybdates f1218, XIX.2.3.3 Oxomolybdates with O(2-) as additional anion f1226, XIX.2.3.4 Hydroxooxomolybdates f1231, XIX.2.3.5 Oxomolybdates with VO4(3-), CrO4(2-), – as further anions f1238, XIX.2.4 Oxothio-, thio-, oxoseleno-, seleno-, and oxoselenothio-molybdates f1252, XIX.3.1 Simple oxo-compounds of tungsten (oxotungstates) f1327, XIX.3.1 Simple oxo-compounds of tungsten (oxotungstates) f1401, XIX.3.1 Simple oxo-compounds of tungsten (oxotungstates) f1495, XIX.3.1 Simple oxo-compounds of tungsten (oxotungstates)

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References:

61Be7	Bentaut, E.F., Dulac, J. (1961) J. Phys. Chem. Solids 21: 118-119
54Ru1	Rüdorff, W., Becker, H. (1954) Z. Naturforsch. 9b: 614-615
65Ha27	Hagel, W.C. (1965) J. Appl. Phys. 36: 2586-2587
65Wi6	Wilhelmi, K.-A., Jonsson, 0. (1965) Acta Chem. Scand. 19: 177-184
66Wi3	Wilhelmi, K.-A. (1966) Arkiv Kemi 26: 131-139
52Su1	Suchow, L., Fankuchen, 1., Ward, R. (1952) J. Am. Chem. Soc. 74: 1678-1679
64Ma13	Martin, C., Dunif, A. (1964) Bull. Soc. Franc. Mineral. Crust. 87: 280
67Pi2	Pistorius, C.W.F.T. (1967) J. Phys. Chem. Solids 28: 1811-1819
65Gu7	Guenchais, J.E., Leroy, M.J., Rohmen, R. (1965) Compt. Rand. 261: 3628-3631
65Ad2	Addison, C.C., Banker, M.G.: J. Cham. Soc. 1965, 5534–5537.
71Fi4	Finger, L. W. (1971) Am. Mineralogist 56: 353-354
66Wi7	Wilhelmi, K.-A.: Chem. Cammun. 1966,437–439.
65Ko1	Kordes, E., Petzoldt, J. (1965) Z. Anorg. Allgem. Chem. 335: 138-155
71Sw1	Swanson, H.E., McMurdie, H.F., Morris, M.C., Evans, H.E., Paretzkin, 13., DeGroot, H., Carmel, S.J.: Natl. Bur. Std. Monograph 25-Sect. 9 (1971) 128pp.
54Fi1	Fischmeister, H. (1954) Acta Cryst. 7: 776-777
54Ni1	Niggli, A. (1954) Acta Cryst. 7: 776
36Mi1	Miller, J.J. (1936) Z. Krist. 94: 131-136
65Pi4	Pistorius, C.W.F.T. (1965) J. Chem. Phys. 43: 2895-2898
58Wi1	Wilhelmi, K.A. (1958) Acta Chem. Scand. 12: 1965-1976
62Pi6	Pistonius, C.W.F.T. (1962) Z. Physik. Chem. (Frankfurt) 35: 109-121
69Wi5	Wilhelmi, K.-A., Jonsson, 0., Lagervall, E. (1969) Acta Chem. Scand. 23: 1074-1076
57Wi2	Wilhelmi, K.A. (1957) Naturwissenschaften 44: 580-581
31Za3	Zachariasen, W.H., Ziegler, G.E. (1931) Z. Krist. 80: 164-173
31Co2	Colby, M.Y. (1931) Z. Krist. 78: 168
60Kl1	Klement, U., Schwab, G.M. (1960) Z. Krist. 114: 170-199
58Kl1	Klement, U. (1958) Naturwissenschaften 45: 83
64Zh1	Zhukova, L.A., Pinskar, Z.G. (1964) Kristallografiya 9: 44-49
68Br8	Brandon, J.K., Brown, I.D. (1968) Can. J. Chem. 46: 933-941
59Si2	Sivasankara Rao, G, (1959) J. Indian Inst. Sci. 41 A: 47-51
30Go1	Goßner, B., Mußgnug, F. (1930) Z. Krist. 72: 476-481
67Ku4	Kuzmin, E.A., Ilyukhin, V. V., Belov, N. V. (1967) DokI. Akad. Nauk SSSR 173: 1068-1071
26He2	Herrmann, K., Hosenfeldt, M., Schönfeld, N. (1926) Wiss. Veröffend. Siemens-Konz. 5: 119-127
65Bo13	Bondot, P., Cunian, H. (1965) Bull. Säe. Franc. Mineral. Crust. 88: 199-201
69Pi3	Pistorius, C.W.F.T., Rapoport, E. (1969) J. Phys. Chem. Solids 30: 195-201
66Th9	Thnienr-Sarcl, A., Watelle-Manian, G., Flaquet, N. (1966) Campt. Rend. 263C: 535-538
64Pa2	Parvov, V.F., Shubnikov, A.V. (1964) Kristallografiya 9: 435-436
69Br8	Brown, I.D., Calvo, C. (1969) Acta Cryst A25: S90
70Br13	Brown, I.D., Calvo, C. (1970) J. Solid State Chem. 1: 173-179
28Bu1	Büsem, W., Herrmann, K. (1928) Z. Krist. 6: 405-408
60Sp1	Spitsyn, V.I., Afonskij, N.S., Tsirel'nikov, V.I. (1960) Zh. Neorgan. Khim. 5: 1505-1508
69Ku16	Kuxmin, E.A., Ilyukhin, V.V., Khanitonov, Y.A., Belov, N.V. (1969) Kristall Technik 4: 441-461
69Kh1	Kharitonov, Yu.A., Kux'min, E.A., Ilyukhin, V.V., Belav, N.V. (1969) Kristalhografiya 14: 788-794
70Go6	Golovachev, V.P., Kuz'min, E.A., Kharitonov, Yu.A., Belov, N. V. (1970) Dokl. Akad. Nauk SSSR 192: 1272-1274
70Ma1	Mattes, R.: Habiitationsschrift, Münster/Westf. 1970.
64Sw1	Swanson, H.E., Morris, M.C.,Evans, E.H., Ulmen, L.: Natl. Bur. Std. (U. S.) Monograph 25, Section 3 (1964).
41Wi1	Wilson, I.A. (1941) Arkiv Kemi Mineral. Geol. 15B: 1-7
63Sto1	Stomberg, R. (1963) Acta Chem. Scand. 17: 1563-1566
69Ga28	Gatehouse, B.M., Levenett, P.: J. Chem. Soc. A 1969, 1857–1861.
69Ste1	Stephens, J.S., Cruickshank, D.W.J. (1969) Acta Cryst. A25: S106
70Ste6	Stephens, J.S., Cruickshank, D.W.J. (1910) Acta Cryst. B 26: 437-439
51By1	Byström, A., Wilhelmi, KA. (1951) Acta Chem. Scand. 5: 1003-1010
46Fr1	Frevel, L.K., Rinn, H.W., Anderson, H.C. (1946) Ind. Eng. Chem., Analytical Ed. 18: 83-93
62Sw2	Swalen, J.D., Ibers, J.A. (1962) J. Chem. Phys. 37: 17-20
62Fe14	Fergusson, J., Wilkins, C.J., Young, J.F.: J. Chem. Soc. 1962, 2136–2141.
65Sto1	Stomberg, R. (1965) Arkiv Kemi 24: 283-302
44Bu1	Bujor, D.J. (1944) Z. Krist. 105: 364-383
31Bu1	Bujor, D.J. (1931) Z. Krist. 78: 1-15
62Ru12	Rush, J.J., Safford, G.J., Taylon, T.I., Havens, W.W. (1962) Bull. Am. Phys. Soc. 7: 24
62Br25	Brajovic, V., Boutin, H., Saffond, G., Palevsky, H. (1962) Bull. Am. Phys. Soc. 7: 500
63Ha31	Hasegawa, A., Fujishige, R., Ogawa, K. (1963) Sci. Rept. (Osaka Univ.) 12: 29-35
40Sm1	Smith, H.W., Jr., Colby, M.Y. (1940) Z. Krist. 103: 90-95
71Lo5	Löfgren, P. (1971) ActaChem. Scand. 25: 44-58
65Er1	Erday, L., Liptay, G., Bid16, G. (1965) J. Inorg. Nucl. Cham. 27: 2451-2452
70Pa18	Panagiotopoulos, N.Ch., Brown, I.D. (1970) Can. J. Chem. 48: 537-543
71Lo4	Löfgren, P., Waltensson, K. (1911) Acta Chem. Scand. 25: 35-43
71Lo6	Löfgnen, P. (1911) Acta Chem. Scand. 25: 3893-3895
61Af1	Afonskli, N. S., Spitsyn, V. J. (1961) Zh. Neorgan. Khim. 6: 2416-2417
70Br32	Brice, J.-F., Aubry, J. (1970) Compt Rend. 271 C: 825-827
66Wi4	Wilhelmi, K.-A. (1966) Amkiv Kemi 26: 141-147
38Mi1	Millen, J.J. (1938) Z. Krist. 99: 32-37
55Da1	Dannhauser, W., Vaughan, P.A. (1955) J. Am. Chem. Soc. 77: 896-897
56De3	Delorme, C. (1956) Acta Cryst 9: 200
49Str5	Strunz, H., Mebdau, R. (1949) Heidelberger Bern. Mineral. Petrog. 2: 216-234
61Oh1	Ohnishi, H., Tenanishi, T. (1961) J. Phys. Soc. Japan 16: 35-43
62Wh1	Whipple, E., Wold, A. (1962) J. Inorg. Nucl. Chem. 24: 23-27
68Ko20	Kohlmuller, R., Omaly, J.: Bull. Sac. Chim. France 1968, 4383–4386.
57Pr1	Prince, E. (1957) Acta Cryst. 10: 554-556
54Be1	Bertaut, F., Delorme, C. (1954) Compt. Rend. 239: 504lú505
58Fr7	Francombe, M.H.: Congr. Intern. Chim. Pure Appl., 16e, Paris, Mcm. Sect. Chim. Minerale, 1957, 129–137 (Publ. 1958).
61Ri2	Rigby, G.R., Hamilton, B. (1961) J. Am. Ceram. Soc. 44: 201-205
64Ga8	Gadalla, A.M.M., White, J. (1964) Trans. Brit. Ceram. Soc. 63: 535-552
34Kr1	Krause, I., Thiel, W. (1934) Ber. Deut. Keram. Ges. 15: 101-110
69Ha9	Haas, H., Kordes, E. (1969) Z. Krist. 129: 259-270
71Sh2	Shannon, R.D., Rogers, D.B., Prewitt, C.T. (1971) Inorg. Chem. 10: 713-718
71Sa13	Sawaoka, A., Saito, S., Inoue, K., Asada, T. (1971) Mater. Res. Bull. 6: 97-102
43Br1	Brandt, K.: Arkiv Kemi Mineral. Geol. 17A (1943) Nr.6, 13pp.
57Ha1	Hahn, H., Lonent, Ch. (1957) Z. Anorg. Allgem. Chem. 290: 68-81
70Sta1	Stählin, W., Oswald, H.-R. (1970) Z. Anorg. Allgem. Chem. 373: 69-72
71Ha8	Hackert, M.L., Jacobson, R.A. (1971) J. Solid State Chem. 3: 364-368
70Pi1	Pistonius, C.W.F.T., Boeyens, J.C.A. (1970) Z. Anorg. Allgem. Chem. 372: 261-263
67Pi8	Pistorius, C.W.F.T. (1967) 3. Chem. Phys. 46: 2167-2171
68Yu1	Yureva, T.M., Boreskov, G.K., Zharkov, V.I., Karakchiev, L.G., Popavskii, V.V., Chi-gnina, V.A. (1968) Kinetika i Kataliz 9: 1291-1295
55Go9	Goodenough, J.B., Loeb, L.A. (1955) Phys. Rev. 98: 391-408
35Wa2	Wagner, G., Schwab, G. M., Staeer, R. (1935) Z. Physik. Chem. B 27: 439-451
56Mi7	Miyahara, 5., Ohnishi, H.J. (1956) J. Phys. Soc. Japan 11: 1296-1297
60Ha16	Hafnen, S. (1960) Schweiz. Mineral. Petrog. Mitt. 40: 207-242
61Ka5	Kaipar, J. (1961) Rost Kristallov, Akad. Nauk SSSR, Inst. Kristallogr. 3: 90-97
64Bl13	Blasse, G. (1964) Philips Res. Rept. Suppl. 3: 1-139
69Gr6	Gronbaek Hazell, R. (1969) Acta Cryst A25: 5116
60Sw1	Swanson, H.E., Cook, MI., Evans, E.H., de Groot, J.H.: Natl. Bur. Std. U.S., Circ. No. 539, Vol. X (1960).
58We4	Wein, C.E., Valkenburg, A. (1958) Bull. Gcol. Soc. Am. 69: 1659
60We6	Weir, C.E., Valkenburg, A. (1960) J. Res. Nati. Bur. Std. 64A: 103-106
69Co21	Cox, D.E., Frazer, B.C., Newnham, R.E., Santoro, R.P. (1969) J. Appl. Phys. 40: 1124-1125
66Gr8	Greskovich, C., Stubican, V.S. (1966) J. Phys. Chem. Solids 27: 1379-1384
64Ho13	Homer, P.N., Richandson, H.M. (1964) Trans. Brit. Ceram. Soc. 64: 389-415
66Stu1	Stubican, V.S., Greskovich, C. (1966) J. Am. Ceram. Soc. 49: 518-519
54La3	Lang, S.M., Roth, R.S., Filmore, C.L. (1954) J. Res. Natl. Bur. Std. 53: 201-210
70Hu8	Hund, F. (1970) Ber. Deut. Keram. Ges. 47: 60-63
60Sw2	Swanson, H.E., Cook, M.I., Isaacs, T., Evans, EH.: Natl. Bur. Std. U.S., Cire. No. 539, Vol. IX(1960
29Pa3	Passerim, L. (1929) Rend. Accad. Nazl. Lincei 9: 338-343
31Cl1	Clark, G.L., Ally, A., Badger, A.E. (1931) Am. J. Sci. 22: 539-546
30Ho2	Holgersson, S. (1930) Z. Anor All em. Chem. 192: 123-128
68Pl4	Plumien, R. (1968) Compt Rend. 267: 98-101
64Ko10	Korneev, Yu. A., Baiakirev, V.F., Chufanov, G.I. (1964) Dokl. Akad. Nauk SSSR 158: 949-952
67Da6	Datta, R.K., Roy, R. (1967) J. Am. Ceram. Soc. 50: 578-583
68U11	Ulmen, G.C., Smothers, W.J. (1968) 3. Am. Cenam. Soc. 51: 315-319
70Ul1	Ulmer, G.C. (1970) In: Alper, A.M.  eds. , High Temperature Oxides, Academic Press, New York, pp 251-314
70Ku10	Kuznetsov, Yu.D., Klyucharov, Ya. V., Suvorov, S.A. (1910) Izv. Akad. Nauk SSSR, Neorgan. Materialy 6: 168-169
70Vi7	Vishnevskii, I.I., Alapin, B.G., Aksel'rod, E.I. (1910) Izv. Akad. Nauk SSSR, Neorgan. Materialy 6: 1675-1679
64Sa16	Sarsonov, J.G., Somenkov, V.A. (1964) Fix. Metal. i Metailovad. 18: 853-857
61Re5	Reinen, D., Schmitz-Dumont, 0. (1961) Z. Anorg. Allgem. Chem. 312: 121-132
61Ze3	Zeljaskova-Panaiotova, M. (1961) Annuaire Univ. Sofia, Biol. Geol. Geogr. Livre 2-Geol. 54: 67-82
62De3	Deen, W,A., Howie, R,A., Zussman, J.: Rock Forming Minerals V. The Non-Silicates, The Spinell Group; London: Longmans 1962; zitiert nach [70 Ul 1].
66Al3	Allen, W.C. (1966) Am. Mineralogist 51: 239-243
68Al10	Allen, W.C. (1968) J. Am. Cerum. Soc. 51: 485-490
57Be3	Beals, R.J., Cook, R.L. (1957) J. Am. Ceram. Soc. 40: 279-284
64Fa4	Fayek, M.K., Murasik A.: Inst. Nucl. Res. (Warsaw) Rept. No 536/11 (1964) 6pp; zitiert nach[C.A.62(1965) 9888g].
35Ch1	Chesters, J.H., Parmelee, C.W. (1935) J. Am. Ceram. Soc. 18: 94-100
69Pl3	Plumier, R., Sougi, M. (1969) Compt Rend. 268B: 365-367
67Gr2	Grenot, M., Huber, M. (1967) J. Phys. Chem. Solids 28: 2441-2447
67Ro18	Robie, R.A., Bethke, P.M., Beardsley, K.M.: U.S. Geol. Surv. Bull. 1248 (1967) 87 pp.
71Gi1	Gibt, B., Chaillot, 13., Delafosse, D. (1911) Compt. Rend. 272C: 1829-1832
69Co12	Courtine, P., Chancosset, H., Cond, P.-P∼: Bull. Soc. Chim. France 1969, 57–58.
69Mu10	Mullen, 0., White, W.B., Roy, R. (1969) Z. Krist. 130: 112-120
52Bu1	Burdese, A. (1952) Atti Accad. Sci. Toirino, Classe Sci. Fis., Mat. Nat. 86: 314-323
62G11	Glasser, F.P., Glasser, L.S.D. (1962) Inorg. Chem. 1: 428-429
66Sch24	Schmitz-Dumont, O., Fendel, H., Hassanein, M., Weissenfeld, H. (1966) Monatsh. Chem. 97: 1660-1695
66Co24	Courtine, P. (1966) Ann. Chim. (Paris) 1: 303-357
70Sw1	Swanson, H.E., McMurdie, H.F., Morris, MC., Evans, E.H.: Standand X-Ray Diffraction Powden Pattenns, Natl. Bur. Std., Monograph 25 Sect. 8 (1970).
71Mc4	McMurdie, H.F., Morris, MA, Groot, J., Swanson, H.E. (1971) J. Res. Natl. Bur. Std. 75 A: 435-439
55De5	Delorme, C. (1955) Compt. Rend. 241: 1588-1589
63Gl5	Glasser, F.P., Glasser, L.S.D. (1963) I. Am. Ceram. Soc. 46: 377-380
49Fo1	Ford, W.F., Rees, W.J. (1949) Trans. Brit. Ceram. Soc. 48: 291-321
56Hi1	Hill, P.M., Peiser, H.S., Rait, J.R. (1956) Acta Cryst. 9: 981-986
71We3	Weiher, J.F., Chambenland, B.L., Gillson, J.L. (1971) J. Solid State Chem. 3: 529-532
30Cl1	Clouse, J.H. (1930) Z. Krist. 76: 285-286
32Cl1	Clouse, J.H. (1932) Z. Krist. 83: 161-171
63Ec1	Eckhardt, F.-J., Heimbach, W. (1963) Naturwissenschaften 50: 612
55Be5	Bertaut, F., Blum, P., Magnano, G. (1955) Compt. Rend. 241: 757-759
56Be1	Bentaut, E.F., Blum, P., Magnano, G. (1956) Bull. Soc. Franc. Mineral. Cnist. 79: 536-561
56Ma3	Magnano, G., Bertaut, F., Blum, P. (1956) Rend. Soc. Mineral. Ital. 12: 165-166
64Ka14	Kanamanu, F., Kiniyama, R. (1964) Nippon Kagaku Zasshi 85: 463-468
68Mu9	Müller-Buschbaum, H., Hoppe, R. (1968) Z. Anorg. Allgem. Chem. 363: 33-42
64Ka15	Kanamaru, F., Kiniyama, R. (1964) Mem. Inst. Sci. Ind. Res., Osaka Univ. 21: 89-110
70Pr4	Preudhomme, J. (1970) Compt. Rend. 271 C: 1013-1075
68Go7	Goodenough, J.B., Longo, J.M., Kafalas, JA. (1968) Mater. Res. Bull. 3: 471-482
58A1	A. S.T.M. X-Ray Powden Data File, Sect. 8; zitiert nach[22, 530].
58Al5	Alcxejew, N.W., Resuchina, T.N., Ssimanow, Yu.P. (1958) Zh. Fiz. Khim. 32: 580-584
67Ch27	Chamberland, B.L. (1967) Solid State Cammun. 5: 663-666
63Sch3	Scholder, R., Schwarz, H. (1963) Z. Anorg. Allgem. Chem. 326: 11-24
65Sch4	Schwarz, H. (1965) Naturwissenschaften 52: 206-207
66Sch12	Schwarz, H. (1966) Z. Anorg. Allgem. Chem. 344: 41-55
66Wi6	Wilhelmi, K.-A. (1966) Arkiv Kemi 26: 157-165
61Wi5	Wilhelmi, K.A., Jonsson, 0. (1961) Acta Chem. Scand. 15: 1415-1416
62Pi1	Pistorius, C.W.F.T., Pistonius, M.C. (1962) Z. Krist. 117: 259-271
69Ne7	Negas, T., Roth, R.S. (1969) J. Res. Natl. But. Std. 73A: 431-442
66Sch14	Schwanz, H. (1966) Z. Anorg. Allgem. Chem. 345: 230-245
66Wi5	Wilhelmi, K.-A. (1966) Arkiv Kemi 26: 149-156
70Ey5	Eysel, W.: Neues Jahrb. Mineral., Monatsh. 1970, 534–547.
65Ma2	Mansmann, M. (1965) Z. Anorg. Allgem. Chem. 339: 52-56
57Sw2	Swanson, H.E., Gilfnich, N.T., Ugrinic, G.M.: Natl. Bur. Std. (U.S.), Circ. 539 Vol. VII (1957).
63Sch15	Schwanz, H. (1963) Z. Anorg. Allgem. Chem. 322: 137-144
64Ho8	Homer, P.N., Richardson, H.M. (1964) Trans. Brit. Ceram. Soc. 63: 389-415
65Pa16	Pannetier, G., Courtine, P., Perraudin, C.: Bull. Soc. Chim. France 1965, 32 18–3221.

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Chapter Concepts:

Substances / Molecular Formulas	(K1-xRbx)2CrO4(II); (K1-xRbx)2CrO4; (NH4)2Cr2O7; (NH4)2CrO4; (NH4)2Sr(CrO4)2; (NH4)3CrO8; (NH4)2Cr2O7; (NH4)2CrO4; (NH4)2Sr (CrO4)2; (NH4)3CrO8; (NHI2Cr3O10; Ag2Cr2O7; Ag2CrO4(II); Ag2Cr2O7; Ag2CrO4; AgCrO2; AgCrO2; Anhydrous magnesium chromite; Ba3CrO5; Ba3CrO5; BaCr2O4; BaCr2O4; BeCr2O4; BeCr2O4; Bichromate of potash; Bipotassium chromate; CaxCu1-xCr2O4; CaxCu1-xCr2O4; CaCr2O4(I); CaCr2O4(II); CaCr2O4; CaCrO3(I); CaCrO3(II); CaCrO4; CaCrO3; CaCrO4; Caesiumchromat; Cesium chromate; Cesium chromate (Cs2CrO4); Cesium chromate(VI); Cesium chromate(VI), Cs2CrO4; Cesium chromium oxide (Cs2CrO4); Chromate (CrO2,1-), magnesium (2:1); Chromate (CrO21-), magnesium (2:1); Chromic acid (H2Cr2O7), dipotassium salt; Chromic acid (H2Cr2O7), disilver(1+) salt; Chromic acid (H2CrO4), dicesium salt; Chromic acid (H2CrO4), dipotassium salt; Chromic acid (H2CrO4), disilver(1+) salt; Chromic acid (H2CrO4), disodium salt; Chromic acid (H2CrO4) dicesium salt; Chromic acid (H2CrO4) disodium salt; Chromium copper oxide (Cr2CuO4); Chromium copper oxide (CuCr2O4); Chromium disodium oxide; Chromium magnesium oxide (Cr2MgO4); Chromium potassium oxide (K2Cr2O7); Chromium sodium oxide (CrNa2O4); Chromsäure (H2Cr2O7) Disilber(I)-Salz; Chromsäure (H2CrO4) Dicesium-Salz; Chromsäure (H2CrO4) Disilber(I)-Salz; Chromsäure Dinatrium-Salz; Chromsäure-Kaliumsalz; Copper chromate (CuCr2O4); Copper chromate(III) (CuCr2O4); Copper chromite; Copper chromite (Cr2CuO4); Copper chromium oxide; Copper chromium oxide (CuCr2O4); Copper dichromate (CuCr2O4); Copper(2+) chromite; Cr2BeO4; Cr2Cs2O7; Cr2CuO4; Cr2K2O7; Cr2MgO4; Cr2O7Rb2; Cr2O7Sr; Cr3Cs2O10; Cr3CsO8; Cr3K2O10; Cr3KO8; Cr3LiO8; Cr3NaO8; Cr3O10Rb2; Cr3O8Rb; Cr4Cs2O13; Cr4K2O13; Cr4O13Rb2; CrCs2O4; CrCuO2; CrCuO4; CrK2O4; CrK3O8; CrLi2O4; CrLi3O4; CrLiO2; CrMgO4; CrNa2O3; CrNa2O4; CrNa3O4; CrNaO2; CrO3Sr; CrO4Rb2; CrO4Sr; CrO4Sr2; Cs2Cr2O7; Cs2Cr3O10(I); Cs2Cr3O10(II); Cs2Cr4O13; Cs2CrO4(II); Cs2Mg2(CrO4)3; Cs2Cr2O7; Cs2Cr3O10; Cs2Cr4O13; Cs2CrO4; Cs2Mg2 (CrO4)3; CsCr3O8; CsCr3O8; Cu0,05Mg0,95Cr2O4; Cu1-xMgxCr2O4; Cu0.05Mg0.95Cr2O4; Cu1-xMgxCr2O4; CuCr2O4(I); CuCr2O4(II); CuCr2O4; CuCrO2; CuCrO4; CuCrO2; CuCrO4; Daipyroxide Black 9512; Dicaesiumchromat; Dicesium Chromium Tetraoxide; Dicesium chromate; Dicesium chromate (Cs2CrO4); Dichromic acid (H2Cr2O7), dipotassium salt; Dichromic acid dipotassium salt; Dichromic acid, dipotassium salt; Dichromium magnesium oxide; Dichromium magnesium tetraoxide; Dilithium Chromium Tetraoxide; Dipotassium Chromium Tetraoxide; Dipotassium bichromate; Dipotassium bichromate (K2Cr2O7); Dipotassium chromate; Dipotassium chromate (K2CrO4); Dipotassium chromate(2-); Dipotassium dichromate; Dipotassium dichromate (K2Cr2O7); Dipotassium dichromium heptaoxide; Dipotassium monochromate; Disodium chromate; Disodium chromate (Na2CrO4); Distrontium Chromium Tetraoxide; K Bichromate; K2Cr2O7(I); K2Cr2O7(II); K2Cr2O7(III); K2Cr3O10; K2Cr4O13; K2CrO4(I); K2CrO4(II); K2Mg2(CrO4)3; K2Sr(CrO4)2; K3CrO8; K2Cr2O7; K2Cr3O10; K2Cr4O13; K2CrO4; K2Mg2 (CrO4)3; K2Sr (CrO4)2; K3CrO8; KCr3O8; KCr3O8; Kaliumbichromat; Kaliumchromat; Kaliumchromat(VI); Kaliumdichromat; Kaliumpyrochromat; Kupferchromit; Kupferchromit, Katalysator; Li2CrO4(II); Li3CrO4; Li2CrO4; Li3CrO4; LiCr3O8; LiCr3O8; LiCrO2; LiCrO2; Lithium Chromium Dioxide; Magnesium Dichromium Tetraoxide; Magnesium chromate (MgCr2O4); Magnesium chromium oxide (MgCr2O4); Mg8-xCr16\\+\\xO32(II); Mg8-xCr16\\+xO32(I); Mg8-xCr16+xO32; MgCr2O4(I); MgCr2O4(II); MgCr2O4; MgCrO4(I); MgCrO4(II); MgCrO4; Na2CrO3; Na2CrO4(II); Na3CrO4(I); Na3CrO4(II); Na2CrO3; Na2CrO4; Na3CrO4; NaCr3O8; NaCr3O8; NaCrO2; NaCrO2; Natriumchromat; Natriumchromat wasserfrei; Natriummonochromat; Neutral potassium chromate; Potassium bichromate; Potassium chromate; Potassium chromate (K2(CrO4)); Potassium chromate (K2Cr2O7); Potassium chromate(VI); Potassium dichromate; Potassium dichromate (K2(Cr2O7)); Potassium dichromate (K2Cr2O7); Potassium dichromate(VI); Rb2Cr2O7(I); Rb2Cr2O7(II); Rb2Cr2O7(III); Rb2Cr3O10; Rb2Cr4O13; Rb2CrO4(II); Rb2Mg2(CrO4)3; Rb2Sr(CrO4)2; Rb2Cr2O7; Rb2Cr3O10; Rb2Cr4O13; Rb2CrO4; Rb2Mg2 (CrO4)3; Rb2Sr (CrO4)2; RbCr3O8; RbCr3O8; SRM 935a; Silberchromat; Silver (I) chromate; Silver Chromate; Silver(I) chromate; Sodium chromate; Sodium chromate (Na2(CrO4)); Sodium chromate (Na2CrO4); Sodium chromate anhydrous; Sodium chromate(VI), Na2CrO4; Sodium chromate, Na2CrO4; Sodium chromium oxide (Na2CrO4); Sr2CrO4; Sr3(CrO4)2; Sr2CrO4; Sr3 (CrO4)2; SrCr2O7; SrCr2O7; SrCrO3; SrCrO4(I); SrCrO4(II); SrCrO3; SrCrO4; Strontium Chromium Tetraoxide; Strontium Chromium Trioxide; Trilithium Chromium Tetraoxide; copper dichromium tetraoxide; silver dichromate;
Element Systems	Ag-Cr-O; Ba-Cr-O; Be-Cr-O; Ca-Cr-Cu-O; Ca-Cr-O; Cr-Cs-Mg-O; Cr-Cs-O; Cr-Cu-Mg-O; Cr-Cu-O; Cr-H-N-O; Cr-H-N-O-Sr; Cr-K-Mg-O; Cr-K-O; Cr-K-O-Rb; Cr-K-O-Sr; Cr-Li-O; Cr-Mg-O; Cr-Mg-O-Rb; Cr-Na-O; Cr-O-Rb; Cr-O-Rb-Sr; Cr-O-Sr;
CAS Registry Numbers	12018-10-9; 12053-26-8; 128448-04-4; 129268-26-4; 13454-78-9; 16286-27-4; 7775-11-3; 7778-50-9; 7784-01-2; 7784-02-3; 7789-00-6;
Properties	crystal structure;
Keywords	inorganic compounds;
Substrates	d4 element; d5 element; d6 element; d7 element; d8 element;

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