| Sample | Magnetism | Reference |
| Cd(II) dia, Zn(II) dia, Cu(II) 1.93 BM, Ni(II) 3.10 BM, Co(II) 4.75 BM | Izolirani paramagneti | Turk J. Chem 25, 181-185 (2001) |
| Fe | Ferromagnet, TC= 1043, Msat = 2.22 MB/form unit | Blundell |
| Co | Ferromagnet, TC= 1394, Msat = 1.72 MB/form unit | Blundell |
| Ni | Ferromagnet, TC= 631, Msat = 0.605 MB/form unit | Blundell |
| Ni0 | Antiferromagnet, TN = 600 K | N.W.Ashcroft, N.D. Mermin, Solid State Physics, Saunders College Publishing, USA |
| Gd | Ferromagnet, TC= 289, Msat = 7.5 MB/form unit | Blundell |
| MnSb | Ferromagnet, TC= 587, Msat = 3.5 MB/form unit | Blundell |
| EuO | Ferromagnet, TC= 70, Msat = 6.9 MB/form unit | Blundell |
| EuS | Ferromagnet, TC= 16.5, Msat = 6.9 MB/form unit | Blundell |
| Fe2O3 - Hematite | Antiferromagnet below Morin transition at 250 K, canted AFM or weak FM between 250 K and 948 K | Wikipedia |
| Co3O4 | Antiferromagnet, spinel structure TN = 40 K | C. D. Spencer and D. Schroeer, Phys. Rev. B 9, 3658 (1974) Bulk and Nano, from: J. Phys.: Condens. Matter 20 (2008) 015218 (8pp) doi:10.1088/0953-8984/20/01/015218 |
| CoO | Antiferromagnet, TN = 291 K, TN= 292 K, theta = -330 K, J = 3/2 |
Principal magnetic susceptibilities and uniaxiai stress experiments in CoO, PRB 24, 419, (1981) Ferromagnetism in Mn- and Co-implanted ZnO nanorods, J. Vac. Sci. Technol. B 21(4), Jul&Aug 2003 Díaz-Guerra, C.; Umek, P.; Gloter, A.; Piqueras, J.; J. Phys. Chem. C 2010, 114, 8192. |
| Mn3O4O | Strong Ferrimagnet, T = 42 K | K. Dwight and N. Menyuk, Physical Review, 119, 1470(1960) |
| MnSiO3 | Tc = 7 K | Iz literature? |
| MnCO3 | Tc = 32 K | Our data, Physics of the Earth and Planetary Interiors 154 (2006) 234–242 |
| MnO | classical example of AFM, TN = 122 K, also anomlay in specific heat at that T | Pierce W. Selwood, Magnetochemistry, Interscience publishers, London 1956, page 332 |
| Mn2O3 | probable in two forms, no Curie point above 100 K | Pierce W. Selwood, Magnetochemistry, Interscience publishers, London 1956, page 332 |
| CrO2 | FM at Tc 390 K, oz v ref JAP 392 K | Pierce W. Selwood, Magnetochemistry, Interscience publishers, London 1956, page 315 [JAP] J. M. D. Coey and M. Venkatesan, JOURNAL OF APPLIED PHYSICS, VOLUME 91, NUMBER 10 15 MAY 2002 |
| CrO3 | Only small T-independent paramagnetism | Pierce W. Selwood, Magnetochemistry, Interscience publishers, London 1956, page 331 |
| beta-Co(OH)2 | Antiferromagnetism at 10 K | P. Rabu et al, Inorg. Chem, 32, 2463 (1993) |
| Fe3O4 | Ferrimagnet, TC= 858 K, 4.1 BM/form unit | Blundell |
| CoFe2O4 | Ferrimagnet, TC= 793 K, 3.7 BM/form unit | Blundell |
| NiFe2O4 | Ferrimagnet, TC= 858 K, 2.3 BM/form unit | Blundell |
| CuFe2O4 | Ferrimagnet, TC= 728 K, 1.3 BM/form unit | Blundell |
| Y3Fe5O12 | Ferrimagnet, TC= 560 K, 5.0 BM/form unit | Blundell |
| Gd3Fe5O12 | Ferrimagnet, TC= 564 K, 16.0 BM/form unit, compenstaion temperature 290 K | Blundell |
| Dy3Fe5O12 | Ferrimagnet, TC= 563 K, 18.2 BM/form unit, compenstaion temperature 220 K | Blundell |
| Ho3Fe5O12 | Ferrimagnet, TC= 567 K, 15.2 BM/form unit, compenstaion temperature 137 K | Blundell |
| MnF2 | Antiferomagnet, TN= 67 K, theta = -80 K, J = 5/2 | Blundell |
| MnO | Antiferomagnet, TN= 116 K, theta = -510 K, J = 5/2 | Blundell |
| FeO | Antiferomagnet, TN= 116 K, theta = -610 K, J = 2 | Blundell |
| Cr2O3 | Antiferomagnet, TN= 307 K, theta = -485 K, J = 3/2 | Blundell |
| alpha-Fe2O3 | Antiferomagnet, TN= 950 K, theta = -2000 K, J = 5/2 | Blundell |
