Nickel oxyacid salts
The Nickel oxyacid salts are a class of chemical compounds of nickel with an oxyacid. The compounds include a number of minerals and industrially important nickel compounds.
Nickel(II) sulfate can crystallise with six water molecules yielding Retgersite or with seven making Morenosite which is isomorphic to Epsom salts. These contain the hexaquanickel(II) ion.[1] There is also an anhydrous form, a dihydrate and a tetrahydrate, the last two crystallised from sulfuric acid. The hexahydrate has two forms, a blue tetragonal form, and a green monoclinic form, with a transition temperature around 53 °C.[2] The heptahydrate crystallises from water below 31.5 above this blue hexhydrate forms, and above 53.3 the green form.[3] Heating nickel sulfate dehydrates it, and then 700° it loses sulfur trioxide, sulfur dioxide and oxygen.
Nickel sulfite can be formed by bubbling sulfur dioxide through nickel carbonate suspended in water. A solution is formed that slowly loses sulfur dioxide, and which crystallises nickel sulfite hexahydrate. Crystals are frequently in the shape of stars, caused by the two opposite triangular enantiomorphs growing base to base. nickel sulfite hexahydrate is highly piezoelectric. Optically it is uniaxial negative with refractive indexes ω=1.552 ε=1.509.[4] When heated it dehydrates and then ends up producing nickel oxide and nickel sulfate.[5]
Nickel thiosulfate NiS2O3 has the same structure as the magnesium salt. It has alternating layers of octahedral shaped nickel2+ hexahydrate, and tetrahedral shaped S2O32− perpendicular to the β direction.[6] When heated to 90 °C it decomposes to form NiS. NiS2O3 can be made from BaS2O3 and NiSO4.[7] Nickel sulfamate can be used for nickel or mixed nickel-tungsten plating.[8] It can be formed by the action of sulfamic acid on nickel carbonate.[9]
Nickel selenite NiSeO3 has many different hydrates, anhydrous NiSeO3 · 1⁄3 H2O, NiSeO3 · H2O, NiSeO3 · 2 H2O (which is also a mineral called ahlfeldite), and NiSeO3 · 4 H2O.[10]
Nickel nitrate commonly crystallises with six water molecules,[1] but can also be anhydrous, or with two, four or nine waters.[11] triphenylphosphine oxide nickel nitrate [(C6H6)3PO]2Ni(NO3)2 is non ionic, with nitrato as a ligand. It can be made from nickel perchlorate. It is yellow and melts at 266 °C.[12]
Nickel carbonate NiCO3 · 6 H2O, hellyerite,[13] crystallising with six water molecules, precipitates when an alkali bicarbonate is added to a Ni aqueous solution.[1] Basic nickel carbonate, zaratite, with the formula Ni4CO3(OH)6(H2O)4, is produced when alkali carbonates are added to a nickel solution. Nickel phosphate, Ni3(PO4)2 · 7 H2O is also insoluble.[1] A number of other phosphates have been made, including nanoporous substances resembling zeolites named with "Versailles Santa Barbara" or VSB.[14] The nanoporous nickel phosphates can accommodate sufficiently small molecules and selectively catalyze reactions on them.[15] A nickel arsenate, Ni3(AsO4)2·8H2O occurs as the mineral annabergite.[16][17]
Nickel perchlorate, Ni(ClO4)2 · 6 H2O,[1] nickel chlorate, Ni(ClO3)2 · 6 H2O,[18] nickel chromate (NiCrO4), nickel chromite (NiCr2O4), nickel(II) titanate, nickel bromate Ni(BrO3)2 · 6 H2O,[19] nickel iodate (Ni(IO3)2 · 4 H2O), nickel stannate (NiSnO3 · 2 H2O)[20] are some other oxy-salts.
The uranates include NiU2O6,[21] NiUO4 α and β forms (orthorhombic a=6.415 Å; b=6.435 Å; c=6.835 Å),[22] and NiU3O10.[22]
List
[edit]formula | name | mol | struct | cell Å | ° | V | Z | density | colour | refs | ||
---|---|---|---|---|---|---|---|---|---|---|---|---|
wt | a | b | c | β | Å3 | g/cm3 | ||||||
NiSO3 · 6 H2O | nickel(II) sulfite hexahydrate | hexagonal | 8.794 | 9.002 | 603 | 2.04 | emerald green | [4][23] | ||||
NiSO3 · 3 H2O | nickel(II) sulfite trihydrate | light green | [24] | |||||||||
NiSO3•3N2H4 · H2O | nickel(II) sulfite trihydrazine hydrate | rose | [5] | |||||||||
NiSO3•2N2H4 · H2O | nickel(II) sulfite dihydrazine hydrate | blue | [5] | |||||||||
NiS2O3•6H2O | Nickel(II) thiosulfate hexahydrate | 463.03 | orthorhombic | 9.282 | 14.44 | 6.803 | 912.1 | 4 | 2.03 | green | [6] | |
diaqua (4,4´-dimethylbipyridine- N,N´)(methanol) thiosulfato(S) nickel(II) | triclinic | 8.157 | 9.685 | 11.714 | α=76.73 β=73.56 γ=78.23 | 854.2 | 2 | [25] | ||||
aqua terpyridine(N,N´,N´´) thiosulfato(S,O) nickel(II) hemihydrate | monoclinic,C2/c | 27.866 | 9.274 | 14.216 | 114.24˚ | 3350. | 8 | [25] | ||||
bis(dipyridylamine) thiosulfato(S,O) nickel(II) hemihydrate | orthorhombic, Iba2 | 12.986 | 16.821 | 19.479 | 4254.9 | 8 | [25] | |||||
NiS2O3(2,9-dimethyl-1,10-phenanthroline)(H2O)·H2O·CH3OH | monoclinic, C2/c | 26.269 | 7.641 | 18.381 | 97.00 | 3662 | 8 | [26] | ||||
NiS2O3(2,9-dimethyl-1,10-phenanthroline) | monoclinic, P21/n | 11.108 | 10.955 | 11.666 | 103.32˚ | 1381.4 | 4 | [26] | ||||
Ni(NH2SO3)2 · 4 H2O | Nickel(II) sulfamate tetrahydrate | 322.95 | triclinic P1 | 6.33 | 6.73 | 6.78 | α= 88.9 β=67.87 γ=67.76 | 245.27 | 1 | 2.19 | green | [9] |
Ni(SO3F)2 | nickel(II) fluorosulfate | yellow | [27] | |||||||||
NiSeO3 | anhydrous nickel(II) selenite | 742.68 | C2/c | 15.4915 | 9.9355 | 14.8416 | 111.173 | 2130.15 | 32 | 4.630 | yellow brown | [10] |
NiSeO3 | anhydrous nickel(II) selenite | 742.68 | Orthorhombic | 5.8803 | 7.5235 | 4.9394 | 218.52 | yellow green high pressure | [28] | |||
NiSeO3 · 1⁄3 H2O | alpha nickel(II) selenite one third hydrate | triclinic P1 | 8.1383 | 8.4034 | 8.5724 | α=123.713 β=90.174 γ=111.823 | 435.83 | 2 | 1.429 | citron yellow | [10] | |
NiSeO3 · 1⁄3 H2O | beta nickel(II) selenite one third hydrate | triclinic P1 | 8.0222 | 8.2133 | 8.4364 | α=68.654 β=61.782 γ=66.363 | 438.11 | 2 | 1.422 | citron yellow | [10] | |
NiSeO3 · 2 H2O | nickel(II) selenite dihydrate | monoclinic | 6.3782 | 8.7734 | 7.5467 | 81.451 | 417.61 | 4 | 3.524 | yellow brown | [10] | |
NiSeO3 · 4 H2O | nickel(II) selenite tetrahydrate | light green | [10] | |||||||||
NiSe2O5 | anhydrous nickel(II) pyroselenite | Pnab Orthorhombic | 60754 | 10.3662 | 6.7913 | 427.71 | 4 | 4.605 | light yellow | [10] | ||
Ni12F2(SeO3)8(OH)6 | nickel hydroxo fluoro selenite, Dumortierite structure | hexagonal P63mc | 12.702 | 4.922 | 1 | [29] | ||||||
Ni12(SeO3)8(OH)8 | nickel hydroxy selenite, Dumortierite structure (basic nickel(II) selenite) | hexagonal P63mc | 12.7004 | 4.9201 | 687.28 | 1 | pale green | [29] | ||||
NiTeO3 | anhydrous nickel(II) tellurite | Orthorhombic | 5.9564 | 7.4986 | 5.2128 | 232.83 | yellow green high pressure | [28] | ||||
Ni3TeO6 | trinickel tellurate (nickel(II) orthotellurate) | Hexagonal | 5.103 | 5.103 | 13.781 | 4.272 | [30] | |||||
NiTe2O5 | nickel pyrotellurite | Orthorhombic | 8.869 | 8.441 | 12.126 | 5.042 | [30] | |||||
Ni2Te3O8 | Monoclinic | 12.392 | 5.207 | 11.496 | 98.6 | 5.702 | [30] | |||||
Ni6(TeO3)4(OH)4 | nickel hydroxy tellurite | hexagonal | 12.993 | 4.958 | 2 | light green | [31] | |||||
Ni5Te4O12Cl2 | nickel tellurium oxychloride | 1066.585 | Monoclinic | 19.5674 | 5.2457 | 16.3084 | 125.289 | 1366.38 | 4 | 5.186 | orange | [32] |
Ni5Te4O12Br2 | nickel tellurium oxybromide | 1155.77 | Monoclinic | 20.255 | 5.2498 | 16.3005 | 124.937 | 1421.0 | 4 | 5.403 | orange | [32] |
Ni5Te4O12I2 | nickel tellurium oxyiodide | Monoclinic | 20.766 | 5.230 | 16.464 | 125.79 | 1451.1 | 4 | brown | [32] | ||
Ni11(HPO3)8(OH)6 | nickel hydroxyphosphite (basic nickel(II) phosphite) | hexagonal | 12.6329 | 4.9040 | 677.77 | 1 | light green | [33] | ||||
NiMoO4•xH2O | nickel(II) molybdate (hydrate) | monoclinic | 11.923 | 8.220 | 14.007 | 113.01 | 1264 | [34] | ||||
Ni(NO3)2 · 2 H2O | nickel(II) nitrate dihydrate | triclinic | 5.09465 | 7.10410 | 8.42881 | γ=78.698 β=102.7640 α=83.1985 | 287.5 | [34] | ||||
Ni(NO3)2 · 4 H2O | nickel(II) nitrate tetrahydrate | triclinic | 7.5710 | 6.623 | 16.26 | γ=97.26 β= 90.015 α=82.57 | 802.3 | [34] | ||||
NiN2O2 | nickel(II) hyponitrite | light green | [35] | |||||||||
NiP2O6 · 12 H2O | nickel(II) hypophosphate | orthorhombic Pnmm | 11.2418 | 18.5245 | 7.3188 | 1523.1 | 4 | 2.142 | [36] | |||
Ni3(PO4)2 | nickel(II) phosphate | monoclinic | 10.1059 | 4.6964 | 5.8273 | 91.138 | 276.52 | 2 | 4.396 | greenish yellow | [37] | |
α-Ni2P2O7 | alpha nickel(II) pyrophosphate | monoclinic | 6.9177 | 8.275 | 8.974 | 113.879 | 469.7 | 4 | 4.12 | ∃ α',β and δ forms | [38] | |
NiHPO4 | nickel(II) hydrophosphate | beige yellow | [39] | |||||||||
[Ni(PO3)2]3•xH2O | nickel trimetaphosphate | [39] | ||||||||||
[Ni(PO3)2]4•xH2O | nickel tetrametaphosphate | [39] | ||||||||||
Ni2P4O12 | nickel cyclotetraphosphate | monoclinic C12/c1 | 11.611 | 8.218 | 9.826 | 118.41 | 824.7 | 4 | green | [40] | ||
Ni12H6(PO4)8(OH)6 | nickel hydroxy phosphate (basic nickel(II) phosphate) | hexagonal | 12.4697 | 4.9531 | 1 | light green | [31] | |||||
(H3O+NH4+)4[Ni18(HPO4)14(OH)3F9]•12H2O | Nanoporous nickel phosphate VSB-1 | hexagonal | 19.834 | 5.0379 | 1710 | [15] | ||||||
Ni20[(OH)12(H2O)6][(HPO4)8(PO4)4]•12H2O | Nanoporous nickel phosphate VSB-5 | hexagonal | 18.153 | 6.387 | 1827 | [15] | ||||||
Ni3P6O18 · 17 H2O | nickel hexametaphosphate | triclinic | 9.109 | 9.267 | 10.75113 | α=84.885 β=102.44 γ=101.64 | 867.4 | pale green | [41] | |||
Ni3(AsO4)2·8H2O | annabergite | Monoclinic | 10.179 | 13.309 | 4.725 | 105 | 2 | light green | [17] | |||
Ni12H6(AsO4)8(OH)6 | nickel hydroxy arsenate (basic nickel(II) arsenate) | hexagonal | 12.678 | 5.0259 | 1 | light green | [31] | |||||
NiAs2O4 | Nickel arsenite | [42] | ||||||||||
Ni3(AsO4)2 | o-nickel orthoarsenate | 454.01 | orthorhombic | 5.943 | 11.263 | 8.164 | 546.5 | 4 | 5.517 | [43] | ||
Ni3(AsO4)2 | m-nickel orthoarsenate xanthiosite | 453.91 | monoclinic | 5.764 | 9.559 | 10.194 | 92.95 | 560.9 | 4 | 5.394 | golden yellow | [43] |
Ni8.5As3O16 | Aerugite | 979.8 | trigonal | 5.9511 | 27.567 | 281.9 | 1 | 5.772 | dark green | [44] | ||
NiSb2O4 | Nickel metantimonite | tetragonal | 8.6388 | 5.9052 | 413.58 | (at 240K) | [45] | |||||
NiSb2O6 | Nickel metantimonate (nickel antimony oxide) |
P42/mnm | 4.62957 | 9.1981 | 2 | [46] | ||||||
Ni(H2O)6[Sb(OH)6]2 | bottinoite Nickel hexahydroantimonate(V) | P3 | 16.060 | 9.792 | 2187.2 | 6 | pale blue | [47] | ||||
NiTa2O6 | Nickel metatantalate | P42/mnm | 4.71581 | 9.1163 | 2 | [46] | ||||||
NiSn(SO3F)6 | nickel tin fluorosulfate | light yellow | [27] | |||||||||
Ni(SO3CF3)2 | nickel trifluoromethanesulfonate | [48] | ||||||||||
NiSn(SO3CF3)6 | nickel tin triflate | light yellow | [27] | |||||||||
(Ni,Mg)10Ge3O16 | 871.7 | trigonal R3 | 5.8850 | 28.6135 | 286.1 | 1 | 5.060 | [49] | ||||
NiCO3 | anhydrous nickel(II) carbonate | 118.72 | rhombohedral | 4.6117 | 14.735 | 271.39 | 6 | 4.358 | [50] | |||
Ni2SiO4 | nickel(II) orthosilicate liebenbergite nickel silicate olivine |
orthorhombic Pbnm | 4.727 | 10.120 | 5.911 | 285.0 | 4 | [51] | ||||
Ni2GeO4 | nickel orthogermanate | cubic Fd3m | 8.221 | 8 | [52] | |||||||
Ni(CN)2 | anhydrous nickel(II) cyanide | tetragonal quad layer | 4.8570 | 12.801 | 4 | [53] | ||||||
NiB4O7 | γ-nickel(II) metadiborate | P6522 | 4.256 | 34.905 | 547.5 | 6 | [54] | |||||
Ni(BrO4)2•6H2O | nickel(II) perbromate hexahydrate | 454.61 | trigonal P3 | 7.817 | 5.235 | 277.9 | 1 | 2.725 | [55] |
References
[edit]- ^ a b c d e Cotton and Wilkinson (1966). Advanced Inorganic Chemistry: A Comprehensive Treatise. John Wiley & Sons. pp. 878–893.
- ^ Mellor pp462-465
- ^ Mellor p 466-467
- ^ a b Klasens, H. A.; Perdok, W. G.; Terpstra, P. (1 January 1936). "Crystallography of Magnesium-Sulphite, Cobalt-Sulphite and Nickel-Sulphite". Zeitschrift für Kristallographie - Crystalline Materials. 94 (1–6): 1–6. doi:10.1524/zkri.1936.94.1.1. S2CID 101456870.
- ^ a b c Budkuley, Jayant S.; Patil, K. C. (November 1990). "Synthesis, infrared spectra and thermoanalytical properties of transition metal sulfite hydrazine hydrates". Journal of Thermal Analysis. 36 (7–8): 2583–2592. doi:10.1007/BF01913655. S2CID 95250073.
- ^ a b Elerman, Y.; Uraz, A. A.; Armağan, N. (15 November 1978). "An X-ray diffraction study of nickel thiosulphate hexahydrate". Acta Crystallographica Section B. 34 (11): 3330–3332. Bibcode:1978AcCrB..34.3330E. doi:10.1107/S0567740878010808.
- ^ Elerman, Y.; Aydin Uraz, A.; Armagˇan, N.; Aka, Y. (1 August 1977). "Crystal data for calcium and nickel thiosulphate hexahydrates: and ". Journal of Applied Crystallography. 10 (4): 362–363. doi:10.1107/S0021889877013673.
- ^ Eliaz, N.; Sridhar, T.M.; Gileadi, E. (May 2005). "Synthesis and characterization of nickel tungsten alloys by electrodeposition". Electrochimica Acta. 50 (14): 2893–2904. doi:10.1016/j.electacta.2004.11.038.
- ^ a b Angerer, Paul; Tillmanns, Ekkehart; Wildner, Manfred (1999). "Crystal Structure Investigations of Amide Sulfate Tetrahydrates with Divalent Cations". Croatica Chemica Acta. 72 (2–3): 295–310. Retrieved 26 June 2016.
- ^ a b c d e f g Vlaev, L. T.; Genieva, Svetlana D.; Georgieva, Velyana G. (16 May 2006). "Study of the crystallization fields of nickel(II) selenites in the system ". Journal of Thermal Analysis and Calorimetry. 86 (2): 449–456. doi:10.1007/s10973-005-7397-x. S2CID 93295896.
- ^ Keith Lascelles, Lindsay G. Morgan, David Nicholls, Detmar Beyersmann, "Nickel Compounds" in Ullmann's Encyclopedia of Industrial Chemistry Wiley-VCH, Weinheim, 2005. doi:10.1002/14356007.a17_235.pub2
- ^ Bannister, E.; Cotton, F. A. (1960). "456. Phosphine oxide complexes. Part III. Bis(triphenylphosphine oxide)dinitrato-complexes of cobalt(II), nickel(II), copper(II), and zinc(II)". Journal of the Chemical Society (Resumed): 2276. doi:10.1039/JR9600002276.
- ^ Isaacs, T. (7 November 1963). "The mineralogy and chemistry of the nickel carbonates" (PDF). Mineralogical Magazine. 33 (263): 663–678. Bibcode:1963MinM...33..663I. doi:10.1180/minmag.1963.033.263.04. Retrieved 10 June 2016.
- ^ Jhung, Sung Hwa; Chang, Jong-San; Park, Sang-Eon; Forster, Paul M.; Férey, Gérard; Cheetham, Anthony K. (April 2004). "Template-Free Synthesis of the Nanoporous Nickel Phosphate VSB-5 under Microwave Irradiation". Chemistry of Materials. 16 (8): 1394–1396. doi:10.1021/cm035173c.
- ^ a b c Timofeeva, M.N.; Panchenko, V.N.; Hasan, Zubair; Jhung, Sung Hwa (March 2013). "Catalytic potential of the wonderful chameleons: Nickel phosphate molecular sieves". Applied Catalysis A. 455: 71–85. doi:10.1016/j.apcata.2013.01.019.
- ^ "Annabergite: Mineral information, data and localities". www.mindat.org. Retrieved 17 January 2019.
- ^ a b "Annabergite" (PDF). Handbook of Mineralogy. 2005.
- ^ Lutz, H.D; Suchanek, E (December 2000). "Intramolecular coupling of BrO stretching vibrations in solid bromates, infrared and Raman spectroscopic studies on (M=Mg, Co, Ni, Zn) and ". Spectrochimica Acta Part A. 56 (14): 2707–2713. Bibcode:2000AcSpA..56.2707L. doi:10.1016/S1386-1425(00)00310-3. PMID 11145337.
- ^ Blackburn, AC; Gallucci, JC; Gerkin, RE (15 September 1991). "Structure of hexaaquanickel(II) bromate". Acta Crystallographica Section C. 47 (9): 1786–1789. Bibcode:1991AcCrC..47.1786B. doi:10.1107/s0108270191002196. PMID 1786165.
- ^ Haynes, W. M., ed. (2014). CRC Handbook of Chemistry and Physics (95 ed.). CRC Press. pp. 4–77–4–78. ISBN 9781482208672.
- ^ Pies, W.; Weiss, A. (1976). "e517, XVI.4.3.1 Simple oxo-compounds of uranium (oxouranates), XVI.4.3.2 Simple oxo-compounds of uranium with H2O (oxouranates with H2O)". Key Elements: d9-, d10-, d1_d3-, f-Elements. Landolt-Börnstein - Group III Condensed Matter. Vol. 7e. pp. 91–94. doi:10.1007/10201569_22. ISBN 3-540-07334-5.
- ^ a b Young, A. P. (16 September 1966). "Nickel Orthouronate: High-Pressure Synthesis". Science. 153 (3742): 1380–1381. Bibcode:1966Sci...153.1380Y. doi:10.1126/science.153.3742.1380. PMID 17814388. S2CID 29765592.
- ^ Baggio, S.; Becka, L. N. (15 June 1969). "A reinvestigation of the structure of nickel sulphite hexahydrate, NiSO3.6H2O". Acta Crystallographica Section B. 25 (6): 1150–1155. Bibcode:1969AcCrB..25.1150B. doi:10.1107/S0567740869003657.
- ^ Salib, Kamal A. R.; El-Maraghy, Salah B.; El-Wafa, Samy M. Abu; El-Sayed, Saied M. (August 1989). "Normal sulphites of metals". Transition Metal Chemistry. 14 (4): 306–308. doi:10.1007/BF01098236. S2CID 97903571.
- ^ a b c Freire, Eleonora; Baggio, Sergio; Goeta, Andrés; Baggio, Ricardo (2001). "X-Ray Structural Study of Three New Nickel Thiosulfate Complexes". Australian Journal of Chemistry. 54 (5): 329. doi:10.1071/CH01074.
- ^ a b Freire, Eleonora; Baggio, Sergio; Suescun, Leopoldo; Baggio, Ricardo (2000). "X-Ray Study of Two Novel Nickel(II)–Thiosulfate Compounds". Australian Journal of Chemistry. 53 (9): 785. doi:10.1071/CH00108. hdl:11336/48380.
- ^ a b c Mallela, S.P.; Lee, K.; Gehrs, P.F.; Christensen, J.I.; Sams, J.R.; Aubke, F. (1987). "The synthesis and characterisation of hetero-bimetallic sulfonate bridged coordination polymers of the type MIISnIV(SO3X)6 with X=F or CF3". Canadian Journal of Chemistry. 65 (11): 2649–2655. doi:10.1139/v87-438.
- ^ a b Kohn, Kay; Inoue, Katsuhiko; Horie, Osamu; Akimoto, Syun-Iti (May 1976). "Crystal chemistry of MSeO3 and MTeO3 (M=Mg, Mn, Co, Ni, Cu, and Zn)". Journal of Solid State Chemistry. 18 (1): 27–37. Bibcode:1976JSSCh..18...27K. doi:10.1016/0022-4596(76)90075-X.
- ^ a b Amorós, Pedro; Marcos, M.Dolores; Roca, Manuel; Beltrán-Porter, Aurelio; Beltrán-Porter, Daniel (November 1996). "Synthetic Pathways for New Tubular Transition Metal Hydroxo- and Fluoro-Selenites: Crystal Structures of M12(X)2(SeO3)8(OH)6 (M = Co2+, Ni2+; X=OH−". Journal of Solid State Chemistry. 126 (2): 169–176. Bibcode:1996JSSCh.126..169A. doi:10.1006/jssc.1996.0325.
- ^ a b c Krishnan, K.; Rama Rao, G.A.; Singh Mudher, K.D.; Venugopal, V. (June 1999). "Vaporization behaviour and Gibbs energy of formation of Ni2Te3O8, NiTe2O5 and Ni3TeO6". Journal of Alloys and Compounds. 288 (1–2): 96–101. doi:10.1016/S0925-8388(99)00079-1.
- ^ a b c MARCOS, M; AMOROS, P; BELTRAN, A; BELTRAN, D (September 1993). "New tubular transition metal oxoanionic derivatives: a systematic approach to condensed phases of the dumortierite family". Solid State Ionics. 63–65: 87–95. doi:10.1016/0167-2738(93)90090-P.
- ^ a b c Johnsson, Mats; Törnroos, Karl W.; Lemmens, Peter; Millet, Patrice (January 2003). "Crystal Structure and Magnetic Properties of a New Two-Dimensional S=1 Quantum Spin System Ni6(TeO3)4X2 (X=Cl, Br)". Chemistry of Materials. 15 (1): 68–73. arXiv:cond-mat/0301359. doi:10.1021/cm0206587.
- ^ Marcos, M. Dolores; Amoros, Pedro; Beltran-Porter, Aurelio; Martinez-Manez, Ramon; Attfield, J. Paul (January 1993). "Novel crystalline microporous transition-metal phosphites M11(HPO3)8(OH)6 (M=Zn, Co, Ni). X-ray powder diffraction structure determination of the cobalt and nickel derivatives". Chemistry of Materials. 5 (1): 121–128. doi:10.1021/cm00025a023.
- ^ a b c "Кристаллические структуры соединений Ni". www.kipt.kharkov.ua.
- ^ Polydoropoulos, C. N.; Yannakopoulos, Th. (1961). "Heavy metal hyponitrites" (PDF). Chimika Chronika. 26A: 70–73.
- ^ Haag, J.M.; LeBret, G.C.; Cleary, D.A.; Twamley, B. (April 2005). "Room temperature synthesis and solid-state structure of Ni2P2O6.12H2O". Journal of Solid State Chemistry. 178 (4): 1308–1311. Bibcode:2005JSSCh.178.1308H. doi:10.1016/j.jssc.2004.12.005.
- ^ McMurdie, Howard F.; Morris, Marlene C.; Evans, Eloise H.; Paretzkin, Boris; Wong-Ng, Winnie; Zhang, Yuming; Hubbard, Camden R. (28 October 2013). "Standard X-Ray Diffraction Powder Patterns from The JCPDS Research Associateship". Powder Diffraction. 2 (1): 41–52. Bibcode:1987PDiff...2...41M. doi:10.1017/S0885715600012239. S2CID 251057066.
- ^ "Details of selected material". AtomWork. Retrieved 9 July 2016.
- ^ a b c Viltange, M. (1964). "Etude microanalytique des phosphates de nickel". Microchimica Acta (in French) (1): 1–16.
- ^ Olbertz, A.; Stachel, D.; Svoboda, I.; Fuess, H. (1 January 1998). "Redetermination of the crystal structures of nickel cyclotetraphosphate, Ni2P4O12 and of cobalt cyclotetraphosphate, Co2P4O12". Zeitschrift für Kristallographie - New Crystal Structures. 213 (1–4): 255–256. doi:10.1524/ncrs.1998.213.14.255.
- ^ "Кристаллические структуры соединений Ni". www.kipt.kharkov.ua (in Russian). Retrieved 20 July 2016.
- ^ Witteveen, H.T. (August 1971). "Magnetic susceptibility of NiAs2O4 and NiSb2O4". Solid State Communications. 9 (15): 1313–1315. Bibcode:1971SSCom...9.1313W. doi:10.1016/0038-1098(71)90086-X.
- ^ a b Barbier, J.; Frampton, C. (1 August 1991). "Structures of orthorhombic and monoclinic Ni3(AsO4)2". Acta Crystallographica Section B. 47 (4): 457–462. Bibcode:1991AcCrB..47..457B. doi:10.1107/S0108768191002987.
- ^ Fleet, M. E.; Barbier, J. (1 June 1989). "Structure of aerugite (Ni8.5As3O16) and interrelated arsenate and germanate structural series". Acta Crystallographica Section B. 45 (3): 201–205. Bibcode:1989AcCrB..45..201F. doi:10.1107/S0108768189002727.
- ^ Chater, R.; Gavarri, J.R.; Hewat, A.W. (March 1987). "Évolution structurale sous pression de NiSb2O4: Compressibilités anisotropes et ordre magnetique". Journal of Solid State Chemistry. 67 (1): 98–103. Bibcode:1987JSSCh..67...98C. doi:10.1016/0022-4596(87)90344-6.
- ^ a b Ehrenberg, H; Wltschek, G; Rodriguez-Carvajal, J; Vogt, T (April 1998). "Magnetic structures of the tri-rutiles NiTa2O6 and NiSb2O6". Journal of Magnetism and Magnetic Materials. 184 (1): 111–115. Bibcode:1998JMMM..184..111E. doi:10.1016/S0304-8853(97)01122-0.
- ^ Bonazzi, Paola; Mazzi, Fiorenzo (1 December 1996). "Bottinoite, Ni(H2O)6[Sb(OH)6]2; crystal structure, twinning, and hydrogen-bond model". American Mineralogist. 81 (11–12): 1494–1500. Bibcode:1996AmMin..81.1494B. doi:10.2138/am-1996-11-1220. S2CID 99372050.
- ^ Okan, S. Erol; Champeney, D. C. (April 1997). "Molar conductance of aqueous solutions of sodium, potassium, and nickel trifluoromethanesulfonate at 25‡C". Journal of Solution Chemistry. 26 (4): 405–414. doi:10.1007/BF02767679. S2CID 95530936.
- ^ Fleet, M. E.; Barbier, J. (15 February 1988). "Structure of (Ni,Mg)10Ge3O16". Acta Crystallographica Section C. 44 (2): 232–234. Bibcode:1988AcCrC..44..232F. doi:10.1107/S0108270187009880.
- ^ Pertlik, F. (15 January 1986). "Structures of hydrothermally synthesized cobalt(II) carbonate and nickel(II) carbonate" (PDF). Acta Crystallographica Section C. 42 (1): 4–5. Bibcode:1986AcCrC..42....4P. doi:10.1107/S0108270186097524.
- ^ Chemical Thermodynamics of Nickel. Elsevier. 2005-04-08. p. 238. ISBN 9780080457543.
- ^ Chemical Thermodynamics of Nickel. Elsevier. 2005-04-08. p. 245. ISBN 9780080457543.
- ^ Hibble, Simon J.; Chippindale, Ann M.; Pohl, Alexander H.; Hannon, Alex C. (17 September 2007). "Surprises from a Simple Material—The Structure and Properties of Nickel Cyanide". Angewandte Chemie International Edition. 46 (37): 7116–7118. doi:10.1002/anie.200701246. PMID 17683027.
- ^ Schmitt, Martin K.; Janka, Oliver; Niehaus, Oliver; Dresselhaus, Thomas; Pöttgen, Rainer; Pielnhofer, Florian; Weihrich, Richard; Krzhizhanovskaya, Maria; Filatov, Stanislav; Bubnova, Rimma; Bayarjargal, Lkhamsuren; Winkler, Björn; Glaum, Robert; Huppertz, Hubert (21 March 2017). "Synthesis and Characterization of the High-Pressure Nickel Borate γ-NiB4O7". Inorganic Chemistry. 56 (7): 4217–4228. doi:10.1021/acs.inorgchem.7b00243. PMID 28323420.
- ^ Gallucci, J. C.; Gerkin, R. E.; Reppart, W. J. (1988-08-15). "Structure of nickel(II) perbromate hexahydrate at 169 K". Acta Crystallographica Section C Crystal Structure Communications. 44 (8): 1345–1348. Bibcode:1988AcCrC..44.1345G. doi:10.1107/S0108270188004226.