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Nickel double salts

May 02, 2024

Nickel is one of the metals that can form Tutton's salts. The singly charged ion can be any of the full range of potassium, rubidium, cesium, ammonium (), or thallium.[1] As a mineral the ammonium nickel salt, (NH4)2Ni(SO4)2 · 6 H2O, can be called nickelboussingaultite.[2] With sodium, the double sulfate is nickelblödite Na2Ni(SO4)2 · 4 H2O from the blödite family. Nickel can be substituted by other divalent metals of similar sized to make mixtures that crystallise in the same form.[3]

Nickel forms double salts with Tutton's salt structure with tetrafluoroberyllate with the range of cations of ammonia,[4] potassium, rubidium, cesium,[5] and thallium.[6]

Anhydrous salts of the formula M2Ni2(SO4)3, which can be termed metal nickel trisulfates, belong to the family of langbeinites. The known salts include (NH4)2Ni2(SO4)3, K2Ni2(SO4)3 and Rb2Ni2(SO4)3, and those of Tl and Cs are predicted to exist.

Some minerals are double salts, for example Nickelzippeite Ni2(UO2)6(SO4)3(OH)10 · 16H2O which is isomorphic to cobaltzippeite, magnesiozippeite and zinczippeite, part of the zippeite group.[7]

Double hydrides of nickel exist, such as Mg2NiH4.[8]

formula name mol struct cell Å ° V Z density colour refs
wt a b c β Å3 g/cm3
Li2[NiF(PO4)] Lithium nickel fluorophosphate 186.56 orthorhombic 10.473 6.289 10.846 714.3 8 3.469 [9]
Na2[NiF(PO4)] sodium nickel fluorophosphate 218.645 Pbcn 90 823.4 [10]
Na2Ni(SO4)2 · 4 H2O nickelblödite 368.867 monoclinic 11.045 8.193 5.535 100.50 2.487 green [11]
K2Ni2(SO4)3 potassium nickel trisulfate 483.77 orthorhombic 9.8436 9.8436 9.8436 90 3.369 [12]
Rb2Ni2(SO4)3 rubidium nickel trisulfate 576.51 9.9217 9.9217 9.9217 90 3.921 [13]
(NH4)2Ni2(SO4)3 ammonium nickel trisulfate 441.65 orthorhombic 9.904 9.904 9.904 90 3.02 [14]
(NH4)4Ni3(SO4)5 ammonium nickel pentasulfate 728.56 yellow [15]
NiLa(SeO3)2Cl nickel lanthanum diselenite chloride 486.977 hexagonal 8.666 18.662 1194.2 6 (153K) [16]
NiNd10(SeO3)12Cl8 nickel Neodymium diselenite chloride monoclinic 15.8175 1578,68 19.276 114.202 7407 4 (153K) [17]
Ni6Fe3+2(SO4)(OH)16 · 4 H2O honessite 904.08 trigonal 3.083 26.71 219.86 0.25 1.71 green [18]
NiTi(SO4)3 nickel titanium sulfate monoclinic 8.254 8.54 14.1444 124.967 817 4 3.21 [19]
Na2Ni(SeO4)2 · 2 H2O sodium nickel selenate dihydrate triclinic 5.507 5.905 7.172 α = 108.56 °, β = 99.07 °, γ = 106.35 ° 204.2 1 [20]
K2Ni(SeO4)2 · 2 H2O potassium nickel selenate dihydrate [21]
K2Ni(SeO4)2 · 6 H2O potassium nickel selenate Tuttons salt 527.52 monoclinic a b c 104.45 4 2.559 bright green [22]
Rb2Ni(SeO4)2 · 6 H2O rubidium nickel selenate Tuttons salt 619.62 monoclinic a b c 105.20 4 2.856 bright green [22]
Cs2Ni(SeO4)2 · 6 H2O caesium nickel selenate Tuttons salt 713.62 monoclinic 9.426 12.961 6.473 106.17 759.5 2 3.114 bright emerald green [22][23]
(NH4)2Ni(SeO4)2 · 6 H2O ammonium nickel selenate Tuttons salt 485.68 monoclinic a b c 106.29 4 2.243 bright green [22]
Tl2Ni(SeO4)2 · 6 H2O thallium nickel selenate Tuttons salt monoclinic a b c 105.60 4 3.993 bright green [24]
K2NiP2O7 310.85 monoclinic P21 9.230 17.540 8.32 91.44 1346.3 8 3.067 [25]
K6Sr2Ni5(P2O7)5 786.55 monoclinic P21/c 11.038 9.53 7.438 100.13 1578 2 3.309 yellow [25]
NaNi2(SO4)2[(H2O)(OH)] monoclinic C2/m Natrochalcite-type 8.605 6.185 7.336 114.78 354.5 2 [26]
BaNi2(PO4)2 barium nickel phosphate Trigonal R-3 4.8112 4.8112 23.302 467.1 3 green [27]
BaNi2(AsO4)2 barium nickel arsenate Trigonal R-3 4.945 4.945 23.61 532.59 3 5.31 [27]
BaNi2(VO4)2 barium nickel vanadate Trigonal R-3 5.0375 5.0375 22.33 3 [28]
Na4Ni7(AsO4)6 tetrasodium heptanickel hexaarsenate 1336.3 monoclinic C2/m 14.538 14.505 10.6120 118.299 1970.3 4 brown [29]
K2Ni(CO3)2 · H2O potassium nickel carbonate
Potassium tetraaquadicarbonatonickelate 		monoclinic Baylissite-type 6.755 6.156 12.2406 113.265 467.6 2 2.34 [30]
Rb2Ni(CO3)2 · H2O Rubidium nickel carbonate monoclinic Baylissite-type 6.971 6.348 12.2807 114.289 495.34 2 2.83 [31]
NiTh(NO3)6 · 8 H2O nickel thorium nitrate Monoclinic P21/c 9.089 8.728 13.565 96.65 1068.8(2) [32]
K[NiGa2(PO4)3(H2O)2] Potassium nickel(II) gallium phosphate hydrate 558.17 Monoclinic C2/c 13.209 10.173 8.813 107.68 1128.4 Z = 4 [33]
KNi3(PO4)P2O7 Potassium trinickel(II) orthophosphate diphosphate 484.14 Monoclinic 9.8591 9.3953 9.9778 118.965 808.63 4 [34]
KNiPO4 potassium nickel phosphate [35]
KNiPO4 · 6 H2O potassium nickel phosphate hexahydrate monoclinic P21 6.8309 11.0610 6.1165 91.045 462.07 2 [36]
NiK4(P3O9)2 · 7 H2O nickel potassium tricyclophosphate hydrate orthorhombic Fm2m 23.03 11.882 8.732 4 blue [37]
NiK4(P3O9)2 nickel potassium tricyclophosphate triclinic P-1 6.143 6.80 12.80 α=102.8 β=89.7 γ=66.03 473.56 1 [37]
NaK5Ni5(P2O7)4 Sodium pentapotassium pentanickel tetra(diphosphate) 1207.80 triclinic 7.188 9.282 10.026(5) α=109.31 β=90.02 γ=104.07 610.0 1 [38]
NH4NiPO4·H2O ammonium nickel phosphate hydrate orthorhombic 5.566 8.760 4.742 231.2 [39]
NH4NiPO4·6H2O ammonium nickel phosphate hydrate
Ni-struvite 		Orthorhombic Pmn21 6.924 6.104 11.166 471.5 2 [40][41][42]
LiNiPO4 lithium nickel phosphate orthorhombic 10.032 5.855 4.681 274.9 4 brown [43]
NaNiPO4 sodium nickel phosphate Pnma maricite structure 8.7839 6.7426 5.0368 298.31 4 yellow [44]
NaNiPO4 sodium nickel phosphate Pnma triphylite form 4.98 6.13 9.98 304.23 [45]
Na4Ni7(PO4)6 Cm 10.550 13.985 6.398 104.87 912.4 2 3.906 [44][46]
NaNiPO4 · 7 H2O sodium nickel phosphate heptahydrate tetrahedral P42/mmc 6.7390 10.9690 498.15 2 [36]
Na3NiP3O10 · 12 H2O trisodium nickel triphosphate dodecahydrate monoclinic (pseudoorthorhombic) 15.0236 9.1972 14.6654. 90.0492 2014.46 1.967 light green [47]
Na5Ni2(PO4)3 · H2O Pentasodium dinickel triphosphate hydrate monoclinic space group P21/n 14.0395 5.185 16.4739 110.419 [48]
Na6Ni2(PO4)3OH orthorhombic Pcmb 7.501 21.4661 7.173 [48]
Na2Ni3(OH)2(PO4)2 sodium nickel hydroxide phosphate monoclinic 14.259 5.695 4.933 104.28 2 3.816 [49]
NiNa4(P3O9)2 · 6 H2O nickel tetrasodium cyclotriphosphate hexahydrate triclinic 6.157 6.820 10.918 α=80.21 β=97.8 γ=119.5 409.8 1 [50]
NiRb4(P3O9)2 nickel tetrarubidium cyclotriphosphate P-31c 7.288 7.288 20.343 2 [51]
NiCs4(P3O9)2 · 6 H2O nickel tetracaesium cyclotriphosphate hydrate orthorhombic 19.992 6.500 18.445 4 [37]
NiCs4(PO3)6 nickel tetracaesium cyclotriphosphate rhombohedral P-31c 11.602 11.602 9.078 1058.24 2 [37]
NiAg4(P3O9)2 · 6 H2O nickel tetrasilver cyclotriphosphate hexahydrate triclinic 9.209 8.053 6.841 α=89.15 β=102.94 γ=97.24 1 [52]
NiAg4(P3O9)2 nickel tetrasilver cyclotriphosphate triclinic 6.100 6.783 10.764 α = 78.66 β=96.85 γ=113.36 401 1 [52]
Ni(NH4)4(P3O9)2 · 4 H2O nickel tetraammonium cyclotriphosphate tetrahydrate monoclinic 2 [53]
TlNi4(PO4)3 Thallium nickel triphosphate orthorhombic Cmc21 4 pale yellow [54]
Tl4Ni6(PO4)6 Thallium nickel hexaphosphate monoclinic Cm 4 yellow brown [54]
Tl2Ni4P2O7(PO4)2 monoclinic C2/c 8 brown [54]
NiMnSb Nickel manganese antimonide cubic 5.945 210.1 4 7.57 [55]
NiMnSi Nickel manganese silicide Orthorhombic 5.8967 3.6124 6.9162 147.32 4 [56][57]
NiMnGe orthorhombic Pnma 6.053 3.769 7.090 161.75 2 [58]
NiFeGe hexagonal [58]
TiNiSi orthorhombic [58]
NaNiIO6 sodium nickel periodate orthorhombic 8.599 2.492 10.281 220.3 [59]
KNiIO6 potassium nickel periodate orthorhombic 12.09 3.683 6.062 269.9 [59]
KNiIO6 potassium nickel periodate triclinic 6.4203 5.075 4.223 α= 65.07 β= 92.717 γ=109.95 116.51 [59]

Double fluorides include the above-mentioned fluoroanion salts, and those fluoronickelates such as NiF4 and NiF6. Other odd ones include an apple green coloured KNiF3·H2O and NaNiF3·H2O, aluminium nickel pentafluoride AlNiF5·7H2O, ceric nickelous decafluoride Ce2NiF10·7H2O, niobium nickel fluoride Ni3H4Nb2F20·19H2O, vanadium nickel pentafluoride VNiF5·7H2O, vanadyl nickel tetrafluoride VONiF4·7H2O, chromic nickelous pentafluoride CrNiF5·7H2O, molybdenum nickel dioxytetrafluoride NiMoO2F4·6H2O, tungsten nickel dioxytetrafluoride NiWO2F4·6H2O and NiWO2F4·10H2O, manganic nickel pentafluoride MnNiF4·7H2O, nickelous ferric fluoride FeNiF5·7H2O.[60]

Nickel trichloride double salts exist which are polymers. Nickel is in octahedral coordination, with double halogen bridges. Examples of this include RbNiCl3, pinkish tan coloured H2NN(CH3)3NiCl3.[61] Other double trichlorides include potassium nickel trichloride KNiCl3·5H2O,[62] yellow cesium nickel trichloride CsNiCl3,[62] lithium nickel trichloride LiNiCl3·3H2O,[62] hyrdrazinium nickel tetrachloride,[62] and nickel ammonium chloride hexahydrate NH4NiCl3·6H2O.[63]

The tetrachloronickelates contain a tetrahedral NiCl42− and are dark blue. Some salts of organic bases are ionic liquids at standard conditions.[64] tetramethylammonium nickel trichloride is pink and very insoluble.[65] Other tetrachlorides include rubidium nickel tetrachloride, lithium nickel tetrachloride Li2NiCl4·4H2O stable from 23 to 60°, stannous nickel tetrachloride , stannic nickel hexachloride is tetragonal.[66]

Lithium nickel hexachloride Li4NiCl6·10H2O is stable from 0 to 23°.

Copper nickel dioxychloride 2CuO·NiCl2·6H2O, and copper nickel trioxychloride 3CuO·NiCl2·4H2O.[62]

Cadmium dinickel hexachloride, crystallises in hexagonal system, dicadmium dinickel hexachloride, has rhombic crystals, and is pleochroic varying from light to dark green.[66]

Thallic nickel octochloride is bright green.[66]

Double bromides include the tetrabromonickelates, and also caesium nickel tribromide, CsNiBr3 copper nickel trioxybromide, 3CuO·NiBr2·4H2O mercuric nickel bromide, Hg2NiBr6, HgNiBr4. Aqueous nickel bromide reacting with mercuric oxide yields mercuric nickel oxybromide, didymium nickel bromide, is reddish brown (mixture of praseodymium and neodymium) Lanthanum nickel bromide, nickel stannic bromide (or nickel bromostannate) NiSnBr6·8H2O is apple green.[67][68]

The tetraiodonickelates are blood red coloured salts of the NiI4 ion with large cations. Double iodides known include mercuric nickel hexaiodide 2HgI2•NiI2 · 6 H2O, mercuric nickel tetraiodide HgI2•NiI2 · 6 H2O, and lead nickel hexaiodide I2•2NiI2 · 3 H2O.[69]

The diperiodatonickelates of nickel IV are strong oxidisers, and akali monoperiodatonickelates also are known.

Nickel forms double nitrates with the lighter rare earth elements. The solid crystals have the formula . The metals include La Ce Pr Nd Sm Gd and the non rare earth Bi. Nickel can also be replaced by similar divalent ions, Mg, Mn Co Zn. For the nickel salts melting temperatures range from 110.5° for La, 108.5° for Ce, 108° for Pr, 105.6° for Nd, 92.2° for Sm and down to 72.5° for Gd The Bi salt melting at 69°. Crystal structure is hexagonal with Z=3.[70] becomes ferromagnetic below 0.393 K.[71] These double nickel nitrates have been used to separate the rare earth elements by fractional crystallization.[72]

Nickel thorium nitrate has formula NiTh(NO3)6 · 8 H2O. Nickel atoms can be substituted by other ions with radius 0.69 to 0.83 Å. The nitrates are coordinated on the thorium atom and the water to the nickel. Enthalp of solution of the octahydrate is 7 kJ/mol. Enthalpy of formation is -4360 kJ/mol. At 109° the octahydrate becomes , and at 190° and anhydrous at 215°.[32] The hexahydrate has Pa3 cubic structure.[32]

Various double amides containing nickel clusters have been made using liquid ammonia as a solvent. Substances made include red Li3Ni4(NH2)11·NH3 (Pna21; Z = 4; a = 16.344(3) Å; b = 12.310(2) Å; c = 8.113(2) Å v=1631 D=1.942), and Cs2Ni(NH2)4•NH3 (P21/c; Z = 4; a =9.553(3) Å; b = 8.734(3) Å; c = 14.243(3) Å; β = 129.96(3)° V=910 D=2.960). These are called amidonickel compounds.[73] Yet others include Li4Ni4(NH2)12·NH3, Na2Ni(NH2)4,[74] orange red Na2Ni(NH2)4•2NH3,[75] Na2Ni(NH2)4•NH3, K2Ni(NH2)4•0.23KNH2, and Rb2Ni(NH2)4•0.23RbNH2.[73]

Nickel dihydrogen phosphide (Ni(PH2)2) can form orange, green or black double salts KNi(PH2)3) that crystallise from liquid ammonia. They are unstable above -78 °C, giving off ammonia, phosphine and hydrogen.[76]

References edit

  1. ^ Wang, Xia; Xinxin Zhuang; Genbo Su; Youping He (2008). "A new ultraviolet filter:   (RNSH) single crystal" (PDF). Optical Materials. 31 (2): 233–236. Bibcode:2008OptMa..31..233W. doi:10.1016/j.optmat.2008.03.020. ISSN 0925-3467.
  2. ^ "Nickelboussingaultite: Nickelboussingaultite mineral information and data". www.mindat.org. Retrieved 3 May 2016.
  3. ^ "Nickelblödite: Nickelblödite mineral information and data". www.mindat.org. Retrieved 4 May 2016.
  4. ^ Montgomery, H. (15 September 1980). "Diammonium nickel bis(tetrafluoroberyllate)hexahydrate". Acta Crystallographica Section B. 36 (9): 2121–2123. Bibcode:1980AcCrB..36.2121M. doi:10.1107/S0567740880008060.
  5. ^ Rây, Nirmalendunath (18 April 1936). "Fluoberyllate und ihre Analogie mit Sulfaten. IV. Doppelsalze mit Rubidium- und Cäsiumfluoberyllaten". Zeitschrift für anorganische und allgemeine Chemie (in German). 227 (1): 32–36. doi:10.1002/zaac.19362270105.
  6. ^ Bose, A.; Mitra, S. C.; Datta, S. K. (11 November 1958). "The Behaviour of the Paramagnetic Ions in the Single Crystals of Some Similarly Constituted Salts of the Iron Group of Elements. II. Hydrated NiFormula Salts". Proceedings of the Royal Society A. 248 (1253): 153–168. Bibcode:1958RSPSA.248..153B. doi:10.1098/rspa.1958.0236. S2CID 98423115.
  7. ^ "Nickelzippeite: Nickelzippeite mineral information and data". www.mindat.org. Retrieved 10 May 2016.
  8. ^ Reilly, James J.; Wiswall, Richard H. (November 1968). "Reaction of hydrogen with alloys of magnesium and nickel and the formation of  ". Inorganic Chemistry. 7 (11): 2254–2256. doi:10.1021/ic50069a016.
  9. ^ Dutreilh, M.; Chevalier, C.; El-Ghozzi, M.; Avignant, D.; Montel, J.M. (January 1999). "Synthesis and Crystal Structure of a New Lithium Nickel Fluorophosphate   with an Ordered Mixed Anionic Framework". Journal of Solid State Chemistry. 142 (1): 1–5. Bibcode:1999JSSCh.142....1D. doi:10.1006/jssc.1998.7908.
  10. ^ Ellis, Brian L.; Makahnouk, W. R. Michael; Rowan-Weetaluktuk, W. N.; Ryan, D. H.; Nazar, Linda F. (9 February 2010). "Crystal Structure and Electrochemical Properties of   Fluorophosphates (A=Na, Li; M=Fe, Mn, Co, Ni)". Chemistry of Materials. 22 (3): 1059–1070. doi:10.1021/cm902023h.
  11. ^ Nickel, E. H.; Bridge, P. J. (March 1977). "Nickelblödite  , a new mineral from Western Australia" (PDF). Mineralogical Magazine. 41 (317): 37–41. Bibcode:1977MinM...41...37N. doi:10.1180/minmag.1977.041.317.06. S2CID 128668262. Retrieved 10 July 2016.
  12. ^ Swanson, H. E.; H. F. McMurdie; M. C. Morris; E. H. Evans (September 1970). "Standard X-ray Diffraction Powder Patterns" (PDF). National Bureau of Standards Monograph 25 Section 6. National Bureau of Standards. p. 46. Retrieved 5 July 2013.
  13. ^ Swanson, H. E.; H. F. McMurdie; M. C. Morris; E. H. Evans (September 1970). "Standard X-ray Diffraction Powder Patterns" (PDF). National Bureau of Standards Monograph 25 Section 8. National Bureau of Standards. p. 72. Retrieved 5 July 2013.
  14. ^ AtomWork materials database at NIMS
  15. ^ Lepierre, Ch.; Lachaud, M. (1 July 1892). "Chimie Minerale - Recherche sur le nickel et le cobalt". Comptes rendus hebdomadaires des séances de l'Académie des sciences. 115: 115. Retrieved 11 July 2016.
  16. ^ Hamida, Makram Ben (July 2007). Oxo-Selenate(IV) und Oxo-Arsenate(III) der SeltenErd-Metalle und ihre Derivate (Thesis). Carl von Ossietzky Universität Oldenburg. p. 147.
  17. ^ Hamida, Makram Ben (July 2007). Oxo-Selenate(IV) und Oxo-Arsenate(III) der SeltenErd-Metalle und ihre Derivate (Thesis). Carl von Ossietzky Universität Oldenburg. p. 149.
  18. ^ Barthelmy, Dave. "Honessite Mineral Data". webmineral.com. Retrieved 10 July 2016.
  19. ^ "  Crystal Structure". Springer.
  20. ^ "AtomWork".
  21. ^ Ebert, M.; Vojtíšek, P. (1993). "The Hydrates of Double Selenates". Chemical Papers. 47 (5): 292–296. 
  22. ^ a b c d Tutton, A. E. H. (1 January 1918). "Monoclinic Double Selenates of the Nickel Group". Philosophical Transactions of the Royal Society of London A. 217 (549–560): 199–235. Bibcode:1918RSPTA.217..199T. doi:10.1098/rsta.1918.0006. JSTOR 91121.
  23. ^ Euler, Η.; Barbier, Β.; Meents, A.; Kirfel, A. (January 2003). "Crystal structure of Tutton′s salts,  , M=Mg, Mn, Co, Ni, Zn". Zeitschrift für Kristallographie - New Crystal Structures. 218 (JG). doi:10.1524/ncrs.2003.218.jg.437. open access
  24. ^ Tutton, A. E. H. (1 January 1928). "The Hexahydrated Double Selenates Containing Thallium. Completion of the Thallium Salts and of the Whole Monoclinic Series". Proceedings of the Royal Society of London A. 118 (780): 393–426. Bibcode:1928RSPSA.118..393T. doi:10.1098/rspa.1928.0060. JSTOR 94913.
  25. ^ a b ElMaadi, A.; Boukhari, A.; Holt, E. M. (September 1995). "Crystal structures of the new diphosphates,   and  ". Journal of Chemical Crystallography. 25 (9): 531–536. doi:10.1007/BF01667020. S2CID 95809818.
  26. ^ Krickl, Robert; Wildner, Manfred (1 November 2007). "Crystal chemistry of synthetic Co- and Ni-analogues of natrochalcite – the shortest known hydrogen bonds among mineral-type compounds Part I: Single-crystal X-ray structures". European Journal of Mineralogy. 19 (6): 805–816. Bibcode:2007EJMin..19..805K. doi:10.1127/0935-1221/2007/0019-1770.
  27. ^ a b El-Bali, B.; Bolte, M.; Boukhari, A.; Aride, J.; Taibe, M. (15 May 1999). " ". Acta Crystallographica Section C. 55 (5): 701–702. doi:10.1107/S0108270199000499.
  28. ^ Rogado, N.; Huang, Q.; Lynn, J. W.; Ramirez, A. P.; Huse, D.; Cava, R. J. (4 April 2002). "A two-dimensional honeycomb antiferromagnet". Physical Review B. 65 (14): 144443. Bibcode:2002PhRvB..65n4443R. doi:10.1103/PhysRevB.65.144443.
  29. ^ David, Rénald (5 April 2016). "Synthesis and crystal structure of  " (PDF). Acta Crystallographica Section E. 72 (5): 632–634. doi:10.1107/S2056989016005417. PMC 4908513. PMID 27308006. Retrieved 16 July 2016.
  30. ^ Zheng, Y. Q.; Adam, A. (15 September 1994). "Potassium trans-tetraaquadicarbonatonickelate(II),  ". Acta Crystallographica Section C. 50 (9): 1422–1424. doi:10.1107/S0108270193012855.
  31. ^ Zheng, Y. Q.; Adam, A. (1 January 1995). "Crystal structure of dirubidium trans-tetraaquabis(carbonato)-cobaltate(II),   and dirubidium trans-tetraaquabis(carbonato)-nickelate(II),  ". Zeitschrift für Kristallographie - Crystalline Materials. 210 (6): 447. Bibcode:1995ZK....210..447Z. doi:10.1524/zkri.1995.210.6.447.
  32. ^ a b c Chernorukov, N. G.; Knyazev, A. V.; Sazonov, A. A. (11 October 2009). "Synthesis, structure, and physicochemical properties of bivalent element hexanitratothorates". Radiochemistry. 51 (5): 437–440. doi:10.1134/S1066362209050014. S2CID 98032208.
  33. ^ Chippindale, AM; Sharma, AV; Hibble, SJ (30 April 2009). "Potassium nickel(II) gallium phosphate hydrate,  ". Acta Crystallographica Section E. 65 (Pt 5): i38–i39. doi:10.1107/s1600536809015438. PMC 2977543. PMID 21583729.
  34. ^ Moutataouia, Meryem; Lamire, Mohammed; Saadi, Mohamed; El Ammari, Lahcen (24 December 2013). "Potassium trinickel(II) orthophosphate diphosphate,  ". Acta Crystallographica Section E. 70 (1): i5. doi:10.1107/S1600536813034089. PMC 3914035. PMID 24526940.
  35. ^ Galoisy, L; Calas, G (March 1993). "XANES and crystal field spectroscopy of five-coordinated Nickel(II) in potassium-nickel phosphate". Materials Research Bulletin. 28 (3): 221–228. doi:10.1016/0025-5408(93)90155-7.
  36. ^ a b Trobajo, Camino; Salvadó, Miguel A.; Pertierra, Pilar; Alfonso, Belén F.; Blanco, Jesús A.; Khainakov, Serguei A.; García, José R. (September 2007). "Synthesis, Structure and Magnetic Characterization of Two Phosphate Compounds Related with the Mineral Struvite:   and  ". Zeitschrift für anorganische und allgemeine Chemie. 633 (11–12): 1932–1936. doi:10.1002/zaac.200700342.
  37. ^ a b c d Sbai, Kacem; Atibi, Azeddine; Kenz, Abdelkebir; Tace, Elmostafa; Tridane, Malika (2003). "CHEMICAL PREPARATION AND CRYSTAL DATA FOR TWO CONDENSED PHOSPHATES NiCs4(PO3)6 AND NiK4(P3O9)2". Phosphorus Research Bulletin. 16: 107–111. doi:10.3363/prb1992.16.0_107.
  38. ^ Moutataouia, Meryem; Lamire, Mohammed; Saadi, Mohamed; El Ammari, Lahcen (12 May 2012). "Sodium pentapotassium pentanickel tetra(diphosphate),  ". Acta Crystallographica Section E. 68 (6): i43. doi:10.1107/S160053681202017X. PMC 3379053. PMID 22719274.
  39. ^ Guerra-López, J.; Gómez, A.; Pomés, R.; González, R. (10 January 2013). "X-ray powder diffraction data for ammonium nickel phosphate monohydrate". Powder Diffraction. 10 (3): 152–153. Bibcode:1995PDiff..10..152G. doi:10.1017/S0885715600014627. S2CID 221940206.
  40. ^ Blachnik, R.; Wiest, Th.; Dülmer, A.; Reuter, H. (1 January 1997). "The crystal structure of ammonium hexaaquanickel(II) phosphate". Zeitschrift für Kristallographie - Crystalline Materials. 212 (1): 20. Bibcode:1997ZK....212...20B. doi:10.1524/zkri.1997.212.1.20. S2CID 95454523.
  41. ^ Wu, Xuehang; Wu, Wenwei; Li, Shushu; Cui, Xuemin; Liao, Sen (7 October 2010). "Kinetics and thermodynamics of thermal decomposition of  ". Journal of Thermal Analysis and Calorimetry. 103 (3): 805–812. doi:10.1007/s10973-010-1057-5. S2CID 98277099.
  42. ^ Haferburg, Götz; Kloess, Gert; Schmitz, Werner; Kothe, Erika (June 2008). ""Ni-struvite" – A new biomineral formed by a nickel resistant Streptomyces acidiscabies". Chemosphere. 72 (3): 517–523. Bibcode:2008Chmsp..72..517H. doi:10.1016/j.chemosphere.2008.02.050. PMID 18410951.
  43. ^ Warda, S. A.; Lee, S.-L. (1 January 1997). "Refinement of the crystal structure of lithium nickel phosphate,  ". Zeitschrift für Kristallographie - New Crystal Structures. 212 (1). doi:10.1524/ncrs.1997.212.1.319.
  44. ^ a b Korchemkin, I. V.; Pet'kov, I. V.; Kurazhkovskaya, V. S.; Borovikova, E. Yu. (25 March 2015). "Synthesis of sodium nickel phosphate and its crystallographic, spectroscopic, and temperature-controlled X-ray diffraction study". Russian Journal of Inorganic Chemistry. 60 (3): 265–269. doi:10.1134/S0036023615030092. S2CID 95193525.
  45. ^ Minakshi, Manickam; Mitchell, David; Jones, Rob; Alenazey, Feraih; Watcharatharapong, Teeraphat; Chakraborty, Sudip; Ahuja, Rajeev (2016). "Synthesis, structural and electrochemical properties of sodium nickel phosphate for energy storage devices". Nanoscale. 8 (21): 11291–11305. Bibcode:2016Nanos...811291M. doi:10.1039/C6NR01179A. PMID 27189034.
  46. ^ Moring, J.; Kostiner, E. (March 1986). "The crystal structure of  ". Journal of Solid State Chemistry. 62 (1): 105–111. Bibcode:1986JSSCh..62..105M. doi:10.1016/0022-4596(86)90221-5.
  47. ^ Azzaoui, Khalil; Essehli, Rachid; Mejdoubi, El Miloud; El Bali, Brahim; Dusek, Michal; Fejfarova, Karla (2012). "  (M=Co, Ni): Crystal Structure and IR Spectroscopy". International Journal of Inorganic Chemistry. 2012: 1–6. doi:10.1155/2012/702471.
  48. ^ a b Kirsanova, Maria A.; Aksyonov, Dmitry A.; Maximova, Olga V.; Shvanskaya, Larisa V.; Vasiliev, Alexander N.; Tsirlin, Alexander A.; Abakumov, Artem M. (19 December 2018). "Crystal Structures and Low-Dimensional Ferromagnetism of Sodium Nickel Phosphates   and  ". Inorganic Chemistry. 58 (1): 610–621. doi:10.1021/acs.inorgchem.8b02791. PMID 30565920. S2CID 56478994.
  49. ^ Yakubovich, O; Kiriukhina, G; Dimitrova, O; Volkov, A; Golovanov, A; Volkova, O; Zvereva, E; Baidya, S; Saha-Dasgupta, T; Vasiliev, A (1 October 2013). "Crystal structure and magnetic properties of a new layered sodium nickel hydroxide phosphate,  ". Dalton Transactions. 42 (41): 14718–14725. doi:10.1039/c3dt51657a. PMID 23877251.
  50. ^ Kacem Sbai; Azzeddine Atibi; Addelkrim Charaf; Mohamed Radid; A. Jouini (2001). "Etude des spectres vibrationnels et des proprietes physico-chimiques du cyclotriphosphate mixte de nickel et de sodium hexahydrate,  ". Annales de Chimie Science des Matériaux (in French). 26 (6): 45–61. doi:10.1016/s0151-9107(01)80098-2. ISSN 0151-9107.
  51. ^ Tridane, M.; Belaaouad, S.; Sbai, K. (November 2000). "Chemical preparations and crystal data for eight new condensed phosphates". Solid State Sciences. 2 (7): 701–704. Bibcode:2000SSSci...2..701T. doi:10.1016/S1293-2558(00)01081-5.
  52. ^ a b Sbai, Kacem; Atibi, Azzeddine; Belaaouad, Saïd; Moutaabid, Mohamed (October 2002). "Etude Des Proprietes Physico-Chimiques du Cyclotriphosphate Mixte de Nickel et D'argent Hexahydrate,  ". Phosphorus, Sulfur, and Silicon and the Related Elements. 177 (10): 2345–2362. doi:10.1080/10426500214290. S2CID 94289865.
  53. ^ Ezzaafrani, M.; Ennaciri, Abdelaziz; Harcharras, Mohamed; Khaoulaf, Redouane; Capitelli, Francesco (March 2012). "Crystal structure and infrared spectrum of new magnesium tetra-ammonium cyclotriphosphate tetrahydrate  ". Zeitschrift für Kristallographie. 227 (3): 141–146. Bibcode:2012ZK....227..141E. doi:10.1524/zkri.2012.1472. S2CID 100862854.
  54. ^ a b c Panahandeh, Ahmad; Jung, Walter (September 2003). "The Oxidation of Heterogeneous Tl/Ni/P-Alloys— Preparation and Crystal Structures of the Thallium Nickel Phosphates  , and  ". Zeitschrift für anorganische und allgemeine Chemie. 629 (10): 1651–1660. doi:10.1002/zaac.200300133.
  55. ^ "NiMnSb (MnNiSb) Crystal Structure - SpringerMaterials". materials.springer.com.
  56. ^ Zhang, Rui-Jing; Eckern, Ulrich; Schwingenschlögl, Udo (27 August 2014). "Fate of Half-Metallicity Near Interfaces: The Case of NiMnSb/MgO and NiMnSi/MgO". ACS Applied Materials & Interfaces. 6 (16): 14516–14521. arXiv:1403.0889. doi:10.1021/am5037753. PMID 24998299. S2CID 206802328.
  57. ^ Johnson, V. (May 1975). "Diffusionless orthorhombic to hexagonal transitions in ternary silicides and germanides". Inorganic Chemistry. 14 (5): 1117–1120. doi:10.1021/ic50147a032.
  58. ^ a b c Bazela, W.; Szytuła, A.; Todorović, J.; Tomkowicz, Z.; Zięba, A. (16 December 1976). "Crystal and magnetic structure of NiMnGe". Physica Status Solidi A. 38 (2): 721–729. Bibcode:1976PSSAR..38..721B. doi:10.1002/pssa.2210380235.
  59. ^ a b c "Соединения Ni (тома 11-14)". Retrieved 28 July 2016.
  60. ^ Mellor 405-406
  61. ^ Goedken, V. L.; Vallarino, L. M.; Quagliano, J. V. (December 1971). "Cationic ligands. Coordination of the 1,1,1-trimethylhydrazinium cation to nickel(II)". Inorganic Chemistry. 10 (12): 2682–2685. doi:10.1021/ic50106a011.
  62. ^ a b c d e Mellor p419
  63. ^ Haynes, W. M., ed. (2014). CRC Handbook of Chemistry and Physics (95 ed.). CRC Press. pp. 4–77–4–78. ISBN 978-1-4822-0867-2.
  64. ^ Meredith, M. Brett; McMillen, C. Heather; Goodman, Jonathan T.; Hanusa, Timothy P. (August 2009). "Ambient temperature imidazolium-based ionic liquids with tetrachloronickelate(II) anions". Polyhedron. 28 (12): 2355–2358. doi:10.1016/j.poly.2009.04.037.
  65. ^ Cotton, F. A.; Faut, O. D.; Goodgame, D. M. L. (January 1961). "Preparation, Spectra and Electronic Structures of Tetrahedral Nickel(II) Complexes Containing Triphenylphosphine and Halide Ions as Ligands". Journal of the American Chemical Society. 83 (2): 344–351. doi:10.1021/ja01463a021.
  66. ^ a b c Mellor p420
  67. ^ "Inorganic chemistry Abstracts". Journal of the Chemical Society, Abstracts. 46: 1254. 1884. doi:10.1039/CA8844601254.
  68. ^ Mellor 457
  69. ^ Mellor, J. W. (1946). "Nickel". A Comprehensive Treatise on Inorganic and Theoretical Chemistry Volume XV Ni Ru, Rh Pd, Os, Ir. Retrieved 17 January 2019.
  70. ^ Jantsch, G. (11 June 1912). "Zur Kenntnis der Doppelnitrate der seltenen Erden. II. Mitteilung". Zeitschrift für anorganische Chemie. 76 (1): 303–323. doi:10.1002/zaac.19120760112.
  71. ^ Mess, K.W.; Lagendijk, E.; Zimmerman, N.J.; Van Duyneveldt, A.J.; Giesen, J.J.; Huiskamp, W.J. (July 1969). "Magnetic and caloric study of the phase transitions of copper, nickel, manganese and cobalt lanthanum double nitrate". Physica. 43 (2): 165–208. Bibcode:1969Phy....43..165M. doi:10.1016/0031-8914(69)90001-9.
  72. ^ Urbain, G. (1 July 1904). "Sur une terre yttrique voisine du gadolinium". Comptes rendus hebdomadaires des séances de l'Académie des sciences. 139 (7): 736–738. Retrieved 14 July 2016.
  73. ^ a b Tenten, A.; Jacobs, H. (December 1991). "Substitutionsvarianten von Nickel(II) amid: ternäre amidoniccolate mit Lithium und Caesium   und  ". Journal of Alloys and Compounds. 177 (2): 193–217. doi:10.1016/0925-8388(91)90074-6.
  74. ^ Jacobs, Herbert; Niewa, Rainer; Sichla, Thomas; Tenten, Andreas; Zachwieja, Uwe (January 1997). "Metal nitrogen compounds with unusual chemical bonding: nitrides, imides, amides and ammine complexes". Journal of Alloys and Compounds. 246 (1–2): 91–100. doi:10.1016/S0925-8388(96)02458-9.
  75. ^ Tenten, A.; Jacobs, H. (October 1991). "Partielle Substitution von Nickel durch Natrium in Nickel(II)-amid: Isolierte  -Einheiten in Natriumtetraamidoniccolat(II)-diammoniakat". Zeitschrift für anorganische und allgemeine Chemie (in German). 604 (1): 113–126. doi:10.1002/zaac.19916040115.
  76. ^ Schmitz-DuMont, O.; Uecker, G.; Schaal, W. (October 1969). "Dihydrogenphosphide und Dihydrogenphosphidosalze der Übergangsmetalle. I. Nickel(II)-dihydrogenphosphid und Kalium-tris-[dihydrogen-phosphido]-niccolat (II)". Zeitschrift für anorganische und allgemeine Chemie. 370 (1–2): 67–79. doi:10.1002/zaac.19693700108.

May 02, 2024
nickel, double, salts, nickel, metals, that, form, tutton, salts, singly, charged, full, range, potassium, rubidium, cesium, ammonium, displaystyle, thallium, mineral, ammonium, nickel, salt, called, nickelboussingaultite, with, sodium, double, sulfate, nickel. Nickel is one of the metals that can form Tutton s salts The singly charged ion can be any of the full range of potassium rubidium cesium ammonium NH 4 displaystyle ce NH4 or thallium 1 As a mineral the ammonium nickel salt NH4 2Ni SO4 2 6 H2O can be called nickelboussingaultite 2 With sodium the double sulfate is nickelblodite Na2Ni SO4 2 4 H2O from the blodite family Nickel can be substituted by other divalent metals of similar sized to make mixtures that crystallise in the same form 3 Nickel forms double salts with Tutton s salt structure with tetrafluoroberyllate with the range of cations of ammonia 4 potassium rubidium cesium 5 and thallium 6 Anhydrous salts of the formula M2Ni2 SO4 3 which can be termed metal nickel trisulfates belong to the family of langbeinites The known salts include NH4 2Ni2 SO4 3 K2Ni2 SO4 3 and Rb2Ni2 SO4 3 and those of Tl and Cs are predicted to exist Some minerals are double salts for example Nickelzippeite Ni2 UO2 6 SO4 3 OH 10 16H2O which is isomorphic to cobaltzippeite magnesiozippeite and zinczippeite part of the zippeite group 7 Double hydrides of nickel exist such as Mg2NiH4 8 formula name mol struct cell A V Z density colour refs wt a b c b A3 g cm3 Li2 NiF PO4 Lithium nickel fluorophosphate 186 56 orthorhombic 10 473 6 289 10 846 714 3 8 3 469 9 Na2 NiF PO4 sodium nickel fluorophosphate 218 645 Pbcn 90 823 4 10 Na2Ni SO4 2 4 H2O nickelblodite 368 867 monoclinic 11 045 8 193 5 535 100 50 2 487 green 11 K2Ni2 SO4 3 potassium nickel trisulfate 483 77 orthorhombic 9 8436 9 8436 9 8436 90 3 369 12 Rb2Ni2 SO4 3 rubidium nickel trisulfate 576 51 9 9217 9 9217 9 9217 90 3 921 13 NH4 2Ni2 SO4 3 ammonium nickel trisulfate 441 65 orthorhombic 9 904 9 904 9 904 90 3 02 14 NH4 4Ni3 SO4 5 ammonium nickel pentasulfate 728 56 yellow 15 NiLa SeO3 2Cl nickel lanthanum diselenite chloride 486 977 hexagonal 8 666 18 662 1194 2 6 153K 16 NiNd10 SeO3 12Cl8 nickel Neodymium diselenite chloride monoclinic 15 8175 1578 68 19 276 114 202 7407 4 153K 17 Ni6Fe3 2 SO4 OH 16 4 H2O honessite 904 08 trigonal 3 083 26 71 219 86 0 25 1 71 green 18 NiTi SO4 3 nickel titanium sulfate monoclinic 8 254 8 54 14 1444 124 967 817 4 3 21 19 Na2Ni SeO4 2 2 H2O sodium nickel selenate dihydrate triclinic 5 507 5 905 7 172 a 108 56 b 99 07 g 106 35 204 2 1 20 K2Ni SeO4 2 2 H2O potassium nickel selenate dihydrate 21 K2Ni SeO4 2 6 H2O potassium nickel selenate Tuttons salt 527 52 monoclinic a b c 104 45 4 2 559 bright green 22 Rb2Ni SeO4 2 6 H2O rubidium nickel selenate Tuttons salt 619 62 monoclinic a b c 105 20 4 2 856 bright green 22 Cs2Ni SeO4 2 6 H2O caesium nickel selenate Tuttons salt 713 62 monoclinic 9 426 12 961 6 473 106 17 759 5 2 3 114 bright emerald green 22 23 NH4 2Ni SeO4 2 6 H2O ammonium nickel selenate Tuttons salt 485 68 monoclinic a b c 106 29 4 2 243 bright green 22 Tl2Ni SeO4 2 6 H2O thallium nickel selenate Tuttons salt monoclinic a b c 105 60 4 3 993 bright green 24 K2NiP2O7 310 85 monoclinic P21 9 230 17 540 8 32 91 44 1346 3 8 3 067 25 K6Sr2Ni5 P2O7 5 786 55 monoclinic P21 c 11 038 9 53 7 438 100 13 1578 2 3 309 yellow 25 NaNi2 SO4 2 H2O OH monoclinic C2 m Natrochalcite type 8 605 6 185 7 336 114 78 354 5 2 26 BaNi2 PO4 2 barium nickel phosphate Trigonal R 3 4 8112 4 8112 23 302 467 1 3 green 27 BaNi2 AsO4 2 barium nickel arsenate Trigonal R 3 4 945 4 945 23 61 532 59 3 5 31 27 BaNi2 VO4 2 barium nickel vanadate Trigonal R 3 5 0375 5 0375 22 33 3 28 Na4Ni7 AsO4 6 tetrasodium heptanickel hexaarsenate 1336 3 monoclinic C2 m 14 538 14 505 10 6120 118 299 1970 3 4 brown 29 K2Ni CO3 2 H2O potassium nickel carbonatePotassium tetraaquadicarbonatonickelate monoclinic Baylissite type 6 755 6 156 12 2406 113 265 467 6 2 2 34 30 Rb2Ni CO3 2 H2O Rubidium nickel carbonate monoclinic Baylissite type 6 971 6 348 12 2807 114 289 495 34 2 2 83 31 NiTh NO3 6 8 H2O nickel thorium nitrate Monoclinic P21 c 9 089 8 728 13 565 96 65 1068 8 2 32 K NiGa2 PO4 3 H2O 2 Potassium nickel II gallium phosphate hydrate 558 17 Monoclinic C2 c 13 209 10 173 8 813 107 68 1128 4 Z 4 33 KNi3 PO4 P2O7 Potassium trinickel II orthophosphate diphosphate 484 14 Monoclinic 9 8591 9 3953 9 9778 118 965 808 63 4 34 KNiPO4 potassium nickel phosphate 35 KNiPO4 6 H2O potassium nickel phosphate hexahydrate monoclinic P21 6 8309 11 0610 6 1165 91 045 462 07 2 36 NiK4 P3O9 2 7 H2O nickel potassium tricyclophosphate hydrate orthorhombic Fm2m 23 03 11 882 8 732 4 blue 37 NiK4 P3O9 2 nickel potassium tricyclophosphate triclinic P 1 6 143 6 80 12 80 a 102 8 b 89 7 g 66 03 473 56 1 37 NaK5Ni5 P2O7 4 Sodium pentapotassium pentanickel tetra diphosphate 1207 80 triclinic 7 188 9 282 10 026 5 a 109 31 b 90 02 g 104 07 610 0 1 38 NH4NiPO4 H2O ammonium nickel phosphate hydrate orthorhombic 5 566 8 760 4 742 231 2 39 NH4NiPO4 6H2O ammonium nickel phosphate hydrateNi struvite Orthorhombic Pmn21 6 924 6 104 11 166 471 5 2 40 41 42 LiNiPO4 lithium nickel phosphate orthorhombic 10 032 5 855 4 681 274 9 4 brown 43 NaNiPO4 sodium nickel phosphate Pnma maricite structure 8 7839 6 7426 5 0368 298 31 4 yellow 44 NaNiPO4 sodium nickel phosphate Pnma triphylite form 4 98 6 13 9 98 304 23 45 Na4Ni7 PO4 6 Cm 10 550 13 985 6 398 104 87 912 4 2 3 906 44 46 NaNiPO4 7 H2O sodium nickel phosphate heptahydrate tetrahedral P42 mmc 6 7390 10 9690 498 15 2 36 Na3NiP3O10 12 H2O trisodium nickel triphosphate dodecahydrate monoclinic pseudoorthorhombic 15 0236 9 1972 14 6654 90 0492 2014 46 1 967 light green 47 Na5Ni2 PO4 3 H2O Pentasodium dinickel triphosphate hydrate monoclinic space group P21 n 14 0395 5 185 16 4739 110 419 48 Na6Ni2 PO4 3OH orthorhombic Pcmb 7 501 21 4661 7 173 48 Na2Ni3 OH 2 PO4 2 sodium nickel hydroxide phosphate monoclinic 14 259 5 695 4 933 104 28 2 3 816 49 NiNa4 P3O9 2 6 H2O nickel tetrasodium cyclotriphosphate hexahydrate triclinic 6 157 6 820 10 918 a 80 21 b 97 8 g 119 5 409 8 1 50 NiRb4 P3O9 2 nickel tetrarubidium cyclotriphosphate P 31c 7 288 7 288 20 343 2 51 NiCs4 P3O9 2 6 H2O nickel tetracaesium cyclotriphosphate hydrate orthorhombic 19 992 6 500 18 445 4 37 NiCs4 PO3 6 nickel tetracaesium cyclotriphosphate rhombohedral P 31c 11 602 11 602 9 078 1058 24 2 37 NiAg4 P3O9 2 6 H2O nickel tetrasilver cyclotriphosphate hexahydrate triclinic 9 209 8 053 6 841 a 89 15 b 102 94 g 97 24 1 52 NiAg4 P3O9 2 nickel tetrasilver cyclotriphosphate triclinic 6 100 6 783 10 764 a 78 66 b 96 85 g 113 36 401 1 52 Ni NH4 4 P3O9 2 4 H2O nickel tetraammonium cyclotriphosphate tetrahydrate monoclinic 2 53 TlNi4 PO4 3 Thallium nickel triphosphate orthorhombic Cmc21 4 pale yellow 54 Tl4Ni6 PO4 6 Thallium nickel hexaphosphate monoclinic Cm 4 yellow brown 54 Tl2Ni4P2O7 PO4 2 monoclinic C2 c 8 brown 54 NiMnSb Nickel manganese antimonide cubic 5 945 210 1 4 7 57 55 NiMnSi Nickel manganese silicide Orthorhombic 5 8967 3 6124 6 9162 147 32 4 56 57 NiMnGe orthorhombic Pnma 6 053 3 769 7 090 161 75 2 58 NiFeGe hexagonal 58 TiNiSi orthorhombic 58 NaNiIO6 sodium nickel periodate orthorhombic 8 599 2 492 10 281 220 3 59 KNiIO6 potassium nickel periodate orthorhombic 12 09 3 683 6 062 269 9 59 KNiIO6 potassium nickel periodate triclinic 6 4203 5 075 4 223 a 65 07 b 92 717 g 109 95 116 51 59 Double fluorides include the above mentioned fluoroanion salts and those fluoronickelates such as NiF4 and NiF6 Other odd ones include an apple green coloured KNiF3 H2O and NaNiF3 H2O aluminium nickel pentafluoride AlNiF5 7H2O ceric nickelous decafluoride Ce2NiF10 7H2O niobium nickel fluoride Ni3H4Nb2F20 19H2O vanadium nickel pentafluoride VNiF5 7H2O vanadyl nickel tetrafluoride VONiF4 7H2O chromic nickelous pentafluoride CrNiF5 7H2O molybdenum nickel dioxytetrafluoride NiMoO2F4 6H2O tungsten nickel dioxytetrafluoride NiWO2F4 6H2O and NiWO2F4 10H2O manganic nickel pentafluoride MnNiF4 7H2O nickelous ferric fluoride FeNiF5 7H2O 60 Nickel trichloride double salts exist which are polymers Nickel is in octahedral coordination with double halogen bridges Examples of this include RbNiCl3 pinkish tan coloured H2NN CH3 3NiCl3 61 Other double trichlorides include potassium nickel trichloride KNiCl3 5H2O 62 yellow cesium nickel trichloride CsNiCl3 62 lithium nickel trichloride LiNiCl3 3H2O 62 hyrdrazinium nickel tetrachloride 62 and nickel ammonium chloride hexahydrate NH4NiCl3 6H2O 63 The tetrachloronickelates contain a tetrahedral NiCl42 and are dark blue Some salts of organic bases are ionic liquids at standard conditions 64 tetramethylammonium nickel trichloride is pink and very insoluble 65 Other tetrachlorides include rubidium nickel tetrachloride lithium nickel tetrachloride Li2NiCl4 4H2O stable from 23 to 60 stannous nickel tetrachloride SnCl 2 NiCl 2 6 H 2 O displaystyle ce SnCl2 NiCl2 6H2O stannic nickel hexachloride SnCl 4 NiCl 2 6 H 2 O displaystyle ce SnCl4 NiCl2 6H2O is tetragonal 66 Lithium nickel hexachloride Li4NiCl6 10H2O is stable from 0 to 23 Copper nickel dioxychloride 2CuO NiCl2 6H2O and copper nickel trioxychloride 3CuO NiCl2 4H2O 62 Cadmium dinickel hexachloride CdCl 2 2 NiCl 2 12 H 2 O displaystyle ce CdCl2 2NiCl2 12H2O crystallises in hexagonal system dicadmium dinickel hexachloride 2 CdCl 2 NiCl 2 12 H 2 O displaystyle ce 2CdCl2 NiCl2 12H2O has rhombic crystals and is pleochroic varying from light to dark green 66 Thallic nickel octochloride 2 TlCl 3 NiCl 2 8 H 2 O displaystyle ce 2TlCl3 NiCl2 8H2O is bright green 66 Double bromides include the tetrabromonickelates and also caesium nickel tribromide CsNiBr3 copper nickel trioxybromide 3CuO NiBr2 4H2O mercuric nickel bromide Hg2NiBr6 HgNiBr4 Aqueous nickel bromide reacting with mercuric oxide yields mercuric nickel oxybromide 6 NiO NiBr 2 HgBr 2 20 H 2 O displaystyle ce 6NiO NiBr2 HgBr2 20H2O didymium nickel bromide 2 Pr Nd Br 3 3 NiBr 2 18 H 2 O displaystyle ce 2 Pr Nd Br3 3NiBr2 18H2O is reddish brown mixture of praseodymium and neodymium Lanthanum nickel bromide 2 LaBr 3 3 NiBr 2 18 H 2 O displaystyle ce 2LaBr3 3NiBr2 18H2O nickel stannic bromide or nickel bromostannate NiSnBr6 8H2O is apple green 67 68 The tetraiodonickelates are blood red coloured salts of the NiI4 ion with large cations Double iodides known include mercuric nickel hexaiodide 2HgI2 NiI2 6 H2O mercuric nickel tetraiodide HgI2 NiI2 6 H2O and lead nickel hexaiodide I2 2NiI2 3 H2O 69 The diperiodatonickelates of nickel IV are strong oxidisers and akali monoperiodatonickelates also are known Nickel forms double nitrates with the lighter rare earth elements The solid crystals have the formula Ni 3 Me 2 NO 3 12 24 H 2 O displaystyle ce Ni3Me2 NO3 12 24H2O The metals include La Ce Pr Nd Sm Gd and the non rare earth Bi Nickel can also be replaced by similar divalent ions Mg Mn Co Zn For the nickel salts melting temperatures range from 110 5 for La 108 5 for Ce 108 for Pr 105 6 for Nd 92 2 for Sm and down to 72 5 for Gd The Bi salt melting at 69 Crystal structure is hexagonal with Z 3 70 Ni 3 La 2 NO 3 12 24 H 2 O displaystyle ce Ni3La2 NO3 12 24H2O becomes ferromagnetic below 0 393 K 71 These double nickel nitrates have been used to separate the rare earth elements by fractional crystallization 72 Nickel thorium nitrate has formula NiTh NO3 6 8 H2O Nickel atoms can be substituted by other ions with radius 0 69 to 0 83 A The nitrates are coordinated on the thorium atom and the water to the nickel Enthalp of solution of the octahydrate is 7 kJ mol Enthalpy of formation is 4360 kJ mol At 109 the octahydrate becomes NiTh NO 3 6 6 H 2 O displaystyle ce NiTh NO3 6 6H2O and at 190 NiTh NO 3 6 3 H 2 O displaystyle ce NiTh NO3 6 3H2O and anhydrous at 215 32 The hexahydrate has Pa3 cubic structure 32 Various double amides containing nickel clusters have been made using liquid ammonia as a solvent Substances made include red Li3Ni4 NH2 11 NH3 Pna21 Z 4 a 16 344 3 A b 12 310 2 A c 8 113 2 A v 1631 D 1 942 and Cs2Ni NH2 4 NH3 P21 c Z 4 a 9 553 3 A b 8 734 3 A c 14 243 3 A b 129 96 3 V 910 D 2 960 These are called amidonickel compounds 73 Yet others include Li4Ni4 NH2 12 NH3 Na2Ni NH2 4 74 orange red Na2Ni NH2 4 2NH3 75 Na2Ni NH2 4 NH3 K2Ni NH2 4 0 23KNH2 and Rb2Ni NH2 4 0 23RbNH2 73 Nickel dihydrogen phosphide Ni PH2 2 can form orange green or black double salts KNi PH2 3 that crystallise from liquid ammonia They are unstable above 78 C giving off ammonia phosphine and hydrogen 76 References edit Wang Xia Xinxin Zhuang Genbo Su Youping He 2008 A new ultraviolet filter Rb 2 Ni SO 4 2 6 H 2 O displaystyle ce Rb2Ni SO4 2 6H2O nbsp RNSH single crystal PDF Optical Materials 31 2 233 236 Bibcode 2008OptMa 31 233W doi 10 1016 j optmat 2008 03 020 ISSN 0925 3467 Nickelboussingaultite Nickelboussingaultite mineral information and data www mindat org Retrieved 3 May 2016 Nickelblodite Nickelblodite mineral information and data www mindat org Retrieved 4 May 2016 Montgomery H 15 September 1980 Diammonium nickel bis tetrafluoroberyllate hexahydrate Acta Crystallographica Section B 36 9 2121 2123 Bibcode 1980AcCrB 36 2121M doi 10 1107 S0567740880008060 Ray Nirmalendunath 18 April 1936 Fluoberyllate und ihre Analogie mit Sulfaten IV Doppelsalze mit Rubidium und Casiumfluoberyllaten Zeitschrift fur anorganische und allgemeine Chemie in German 227 1 32 36 doi 10 1002 zaac 19362270105 Bose A Mitra S C Datta S K 11 November 1958 The Behaviour of the Paramagnetic Ions in the Single Crystals of Some Similarly Constituted Salts of the Iron Group of Elements II Hydrated NiFormula Salts Proceedings of the Royal Society A 248 1253 153 168 Bibcode 1958RSPSA 248 153B doi 10 1098 rspa 1958 0236 S2CID 98423115 Nickelzippeite Nickelzippeite mineral information and data www mindat org Retrieved 10 May 2016 Reilly James J Wiswall Richard H November 1968 Reaction of hydrogen with alloys of magnesium and nickel and the formation of Mg 2 NiH 4 displaystyle ce Mg2NiH4 nbsp Inorganic Chemistry 7 11 2254 2256 doi 10 1021 ic50069a016 Dutreilh M Chevalier C El Ghozzi M Avignant D Montel J M January 1999 Synthesis and Crystal Structure of a New Lithium Nickel Fluorophosphate Li 2 NiF PO 4 displaystyle ce Li2 NiF PO4 nbsp with an Ordered Mixed Anionic Framework Journal of Solid State Chemistry 142 1 1 5 Bibcode 1999JSSCh 142 1D doi 10 1006 jssc 1998 7908 Ellis Brian L Makahnouk W R Michael Rowan Weetaluktuk W N Ryan D H Nazar Linda F 9 February 2010 Crystal Structure and Electrochemical Properties of A 2 MPO 4 F displaystyle ce A2 MPO4 F nbsp Fluorophosphates A Na Li M Fe Mn Co Ni Chemistry of Materials 22 3 1059 1070 doi 10 1021 cm902023h Nickel E H Bridge P J March 1977 Nickelblodite Na 2 Ni SO 4 2 4 H 2 O displaystyle ce Na2Ni SO4 2 4H2O nbsp a new mineral from Western Australia PDF Mineralogical Magazine 41 317 37 41 Bibcode 1977MinM 41 37N doi 10 1180 minmag 1977 041 317 06 S2CID 128668262 Retrieved 10 July 2016 Swanson H E H F McMurdie M C Morris E H Evans September 1970 Standard X ray Diffraction Powder Patterns PDF National Bureau of Standards Monograph 25 Section 6 National Bureau of Standards p 46 Retrieved 5 July 2013 Swanson H E H F McMurdie M C Morris E H Evans September 1970 Standard X ray Diffraction Powder Patterns PDF National Bureau of Standards Monograph 25 Section 8 National Bureau of Standards p 72 Retrieved 5 July 2013 AtomWork materials database at NIMS Lepierre Ch Lachaud M 1 July 1892 Chimie Minerale Recherche sur le nickel et le cobalt Comptes rendus hebdomadaires des seances de l Academie des sciences 115 115 Retrieved 11 July 2016 Hamida Makram Ben July 2007 Oxo Selenate IV und Oxo Arsenate III der SeltenErd Metalle und ihre Derivate Thesis Carl von Ossietzky Universitat Oldenburg p 147 Hamida Makram Ben July 2007 Oxo Selenate IV und Oxo Arsenate III der SeltenErd Metalle und ihre Derivate Thesis Carl von Ossietzky Universitat Oldenburg p 149 Barthelmy Dave Honessite Mineral Data webmineral com Retrieved 10 July 2016 NiTi SO 4 3 TiNi SO 4 3 displaystyle ce NiTi SO4 3 TiNi SO4 3 nbsp Crystal Structure Springer AtomWork Ebert M Vojtisek P 1993 The Hydrates of Double Selenates Chemical Papers 47 5 292 296 nbsp a b c d Tutton A E H 1 January 1918 Monoclinic Double Selenates of the Nickel Group Philosophical Transactions of the Royal Society of London A 217 549 560 199 235 Bibcode 1918RSPTA 217 199T doi 10 1098 rsta 1918 0006 JSTOR 91121 Euler H Barbier B Meents A Kirfel A January 2003 Crystal structure of Tutton s salts Cs 2 M II H 2 O 6 SeO 4 2 displaystyle ce Cs2 M II H2O 6 SeO4 2 nbsp M Mg Mn Co Ni Zn Zeitschrift fur Kristallographie New Crystal Structures 218 JG doi 10 1524 ncrs 2003 218 jg 437 open access Tutton A E H 1 January 1928 The Hexahydrated Double Selenates Containing Thallium Completion of the Thallium Salts and of the Whole Monoclinic Series Proceedings of the Royal Society of London A 118 780 393 426 Bibcode 1928RSPSA 118 393T doi 10 1098 rspa 1928 0060 JSTOR 94913 a b ElMaadi A Boukhari A Holt E M September 1995 Crystal structures of the new diphosphates K 2 NiP 2 O 7 displaystyle ce K2NiP2O7 nbsp and K 6 Sr 2 Ni 5 P 2 O 7 5 displaystyle ce K6Sr2Ni5 P2O7 5 nbsp Journal of Chemical Crystallography 25 9 531 536 doi 10 1007 BF01667020 S2CID 95809818 Krickl Robert Wildner Manfred 1 November 2007 Crystal chemistry of synthetic Co and Ni analogues of natrochalcite the shortest known hydrogen bonds among mineral type compounds Part I Single crystal X ray structures European Journal of Mineralogy 19 6 805 816 Bibcode 2007EJMin 19 805K doi 10 1127 0935 1221 2007 0019 1770 a b El Bali B Bolte M Boukhari A Aride J Taibe M 15 May 1999 BaNi 2 PO 4 2 displaystyle ce BaNi2 PO4 2 nbsp Acta Crystallographica Section C 55 5 701 702 doi 10 1107 S0108270199000499 Rogado N Huang Q Lynn J W Ramirez A P Huse D Cava R J 4 April 2002 A two dimensional honeycomb antiferromagnet Physical Review B 65 14 144443 Bibcode 2002PhRvB 65n4443R doi 10 1103 PhysRevB 65 144443 David Renald 5 April 2016 Synthesis and crystal structure of Na 4 Ni 7 AsO 4 6 displaystyle ce Na4Ni7 AsO4 6 nbsp PDF Acta Crystallographica Section E 72 5 632 634 doi 10 1107 S2056989016005417 PMC 4908513 PMID 27308006 Retrieved 16 July 2016 Zheng Y Q Adam A 15 September 1994 Potassium trans tetraaquadicarbonatonickelate II K 2 Ni CO 3 2 H 2 O 4 displaystyle ce K2 Ni CO3 2 H2O 4 nbsp Acta Crystallographica Section C 50 9 1422 1424 doi 10 1107 S0108270193012855 Zheng Y Q Adam A 1 January 1995 Crystal structure of dirubidium trans tetraaquabis carbonato cobaltate II Rb 2 Co CO 3 2 H 2 O 4 displaystyle ce Rb2 Co CO3 2 H2O 4 nbsp and dirubidium trans tetraaquabis carbonato nickelate II Rb 2 Ni CO 3 2 H 2 O 4 displaystyle ce Rb2 Ni CO3 2 H2O 4 nbsp Zeitschrift fur Kristallographie Crystalline Materials 210 6 447 Bibcode 1995ZK 210 447Z doi 10 1524 zkri 1995 210 6 447 a b c Chernorukov N G Knyazev A V Sazonov A A 11 October 2009 Synthesis structure and physicochemical properties of bivalent element hexanitratothorates Radiochemistry 51 5 437 440 doi 10 1134 S1066362209050014 S2CID 98032208 Chippindale AM Sharma AV Hibble SJ 30 April 2009 Potassium nickel II gallium phosphate hydrate K NiGa 2 PO 4 3 H 2 O 2 displaystyle ce K NiGa2 PO4 3 H2O 2 nbsp Acta Crystallographica Section E 65 Pt 5 i38 i39 doi 10 1107 s1600536809015438 PMC 2977543 PMID 21583729 Moutataouia Meryem Lamire Mohammed Saadi Mohamed El Ammari Lahcen 24 December 2013 Potassium trinickel II orthophosphate diphosphate KNi 3 PO 4 P 7 O 7 displaystyle ce KNi3 PO4 P7O7 nbsp Acta Crystallographica Section E 70 1 i5 doi 10 1107 S1600536813034089 PMC 3914035 PMID 24526940 Galoisy L Calas G March 1993 XANES and crystal field spectroscopy of five coordinated Nickel II in potassium nickel phosphate Materials Research Bulletin 28 3 221 228 doi 10 1016 0025 5408 93 90155 7 a b Trobajo Camino Salvado Miguel A Pertierra Pilar Alfonso Belen F Blanco Jesus A Khainakov Serguei A Garcia Jose R September 2007 Synthesis Structure and Magnetic Characterization of Two Phosphate Compounds Related with the Mineral Struvite KNiPO 4 6 H 2 O displaystyle ce KNiPO4 6H2O nbsp and NaNiPO 4 7 H 2 O displaystyle ce NaNiPO4 7H2O nbsp Zeitschrift fur anorganische und allgemeine Chemie 633 11 12 1932 1936 doi 10 1002 zaac 200700342 a b c d Sbai Kacem Atibi Azeddine Kenz Abdelkebir Tace Elmostafa Tridane Malika 2003 CHEMICAL PREPARATION AND CRYSTAL DATA FOR TWO CONDENSED PHOSPHATES NiCs4 PO3 6 AND NiK4 P3O9 2 Phosphorus Research Bulletin 16 107 111 doi 10 3363 prb1992 16 0 107 Moutataouia Meryem Lamire Mohammed Saadi Mohamed El Ammari Lahcen 12 May 2012 Sodium pentapotassium pentanickel tetra diphosphate NaK 5 Ni 5 P 2 O 7 3 displaystyle ce NaK5Ni5 P2O7 3 nbsp Acta Crystallographica Section E 68 6 i43 doi 10 1107 S160053681202017X PMC 3379053 PMID 22719274 Guerra Lopez J Gomez A Pomes R Gonzalez R 10 January 2013 X ray powder diffraction data for ammonium nickel phosphate monohydrate Powder Diffraction 10 3 152 153 Bibcode 1995PDiff 10 152G doi 10 1017 S0885715600014627 S2CID 221940206 Blachnik R Wiest Th Dulmer A Reuter H 1 January 1997 The crystal structure of ammonium hexaaquanickel II phosphate Zeitschrift fur Kristallographie Crystalline Materials 212 1 20 Bibcode 1997ZK 212 20B doi 10 1524 zkri 1997 212 1 20 S2CID 95454523 Wu Xuehang Wu Wenwei Li Shushu Cui Xuemin Liao Sen 7 October 2010 Kinetics and thermodynamics of thermal decomposition of NH 4 NiPO 4 6 H 2 O displaystyle ce NH4NiPO4 6H2O nbsp Journal of Thermal Analysis and Calorimetry 103 3 805 812 doi 10 1007 s10973 010 1057 5 S2CID 98277099 Haferburg Gotz Kloess Gert Schmitz Werner Kothe Erika June 2008 Ni struvite A new biomineral formed by a nickel resistant Streptomyces acidiscabies Chemosphere 72 3 517 523 Bibcode 2008Chmsp 72 517H doi 10 1016 j chemosphere 2008 02 050 PMID 18410951 Warda S A Lee S L 1 January 1997 Refinement of the crystal structure of lithium nickel phosphate LiNiPO 4 displaystyle ce LiNiPO4 nbsp Zeitschrift fur Kristallographie New Crystal Structures 212 1 doi 10 1524 ncrs 1997 212 1 319 a b Korchemkin I V Pet kov I V Kurazhkovskaya V S Borovikova E Yu 25 March 2015 Synthesis of sodium nickel phosphate and its crystallographic spectroscopic and temperature controlled X ray diffraction study Russian Journal of Inorganic Chemistry 60 3 265 269 doi 10 1134 S0036023615030092 S2CID 95193525 Minakshi Manickam Mitchell David Jones Rob Alenazey Feraih Watcharatharapong Teeraphat Chakraborty Sudip Ahuja Rajeev 2016 Synthesis structural and electrochemical properties of sodium nickel phosphate for energy storage devices Nanoscale 8 21 11291 11305 Bibcode 2016Nanos 811291M doi 10 1039 C6NR01179A PMID 27189034 Moring J Kostiner E March 1986 The crystal structure of Na 4 Ni 7 PO 4 6 displaystyle ce Na4Ni7 PO4 6 nbsp Journal of Solid State Chemistry 62 1 105 111 Bibcode 1986JSSCh 62 105M doi 10 1016 0022 4596 86 90221 5 Azzaoui Khalil Essehli Rachid Mejdoubi El Miloud El Bali Brahim Dusek Michal Fejfarova Karla 2012 Na 3 MP 3 O 10 12 H 2 O displaystyle ce Na3MP3O10 12H2O nbsp M Co Ni Crystal Structure and IR Spectroscopy International Journal of Inorganic Chemistry 2012 1 6 doi 10 1155 2012 702471 a b Kirsanova Maria A Aksyonov Dmitry A Maximova Olga V Shvanskaya Larisa V Vasiliev Alexander N Tsirlin Alexander A Abakumov Artem M 19 December 2018 Crystal Structures and Low Dimensional Ferromagnetism of Sodium Nickel Phosphates Na 5 Ni 2 PO 4 3 H 2 O displaystyle ce Na5Ni2 PO4 3 H2O nbsp and Na 6 Ni 2 PO 4 3 OH displaystyle ce Na6Ni2 PO4 3OH nbsp Inorganic Chemistry 58 1 610 621 doi 10 1021 acs inorgchem 8b02791 PMID 30565920 S2CID 56478994 Yakubovich O Kiriukhina G Dimitrova O Volkov A Golovanov A Volkova O Zvereva E Baidya S Saha Dasgupta T Vasiliev A 1 October 2013 Crystal structure and magnetic properties of a new layered sodium nickel hydroxide phosphate Na 2 Ni 3 OH 2 PO 4 2 displaystyle ce Na2Ni3 OH 2 PO4 2 nbsp Dalton Transactions 42 41 14718 14725 doi 10 1039 c3dt51657a PMID 23877251 Kacem Sbai Azzeddine Atibi Addelkrim Charaf Mohamed Radid A Jouini 2001 Etude des spectres vibrationnels et des proprietes physico chimiques du cyclotriphosphate mixte de nickel et de sodium hexahydrate NiNa 4 P 3 O 9 2 6 H 2 O displaystyle ce NiNa4 P3O9 2 6H2O nbsp Annales de Chimie Science des Materiaux in French 26 6 45 61 doi 10 1016 s0151 9107 01 80098 2 ISSN 0151 9107 Tridane M Belaaouad S Sbai K November 2000 Chemical preparations and crystal data for eight new condensed phosphates Solid State Sciences 2 7 701 704 Bibcode 2000SSSci 2 701T doi 10 1016 S1293 2558 00 01081 5 a b Sbai Kacem Atibi Azzeddine Belaaouad Said Moutaabid Mohamed October 2002 Etude Des Proprietes Physico Chimiques du Cyclotriphosphate Mixte de Nickel et D argent Hexahydrate NiAg 4 P 3 O 9 2 6 H 2 O displaystyle ce NiAg4 P3O9 2 6H2O nbsp Phosphorus Sulfur and Silicon and the Related Elements 177 10 2345 2362 doi 10 1080 10426500214290 S2CID 94289865 Ezzaafrani M Ennaciri Abdelaziz Harcharras Mohamed Khaoulaf Redouane Capitelli Francesco March 2012 Crystal structure and infrared spectrum of new magnesium tetra ammonium cyclotriphosphate tetrahydrate Mg NH 4 4 P 3 O 9 2 4 H 2 O displaystyle ce Mg NH4 4 P3O9 2 4 H2O nbsp Zeitschrift fur Kristallographie 227 3 141 146 Bibcode 2012ZK 227 141E doi 10 1524 zkri 2012 1472 S2CID 100862854 a b c Panahandeh Ahmad Jung Walter September 2003 The Oxidation of Heterogeneous Tl Ni P Alloys Preparation and Crystal Structures of the Thallium Nickel Phosphates TlNi 4 PO 4 3 Tl 4 Ni 7 PO 4 6 displaystyle ce TlNi4 PO4 3 Tl4Ni7 PO4 6 nbsp and Tl 2 Ni 4 P 2 O 7 PO 4 2 displaystyle ce Tl2Ni4 P2O7 PO4 2 nbsp Zeitschrift fur anorganische und allgemeine Chemie 629 10 1651 1660 doi 10 1002 zaac 200300133 NiMnSb MnNiSb Crystal Structure SpringerMaterials materials springer com Zhang Rui Jing Eckern Ulrich Schwingenschlogl Udo 27 August 2014 Fate of Half Metallicity Near Interfaces The Case of NiMnSb MgO and NiMnSi MgO ACS Applied Materials amp Interfaces 6 16 14516 14521 arXiv 1403 0889 doi 10 1021 am5037753 PMID 24998299 S2CID 206802328 Johnson V May 1975 Diffusionless orthorhombic to hexagonal transitions in ternary silicides and germanides Inorganic Chemistry 14 5 1117 1120 doi 10 1021 ic50147a032 a b c Bazela W Szytula A Todorovic J Tomkowicz Z Zieba A 16 December 1976 Crystal and magnetic structure of NiMnGe Physica Status Solidi A 38 2 721 729 Bibcode 1976PSSAR 38 721B doi 10 1002 pssa 2210380235 a b c Soedineniya Ni toma 11 14 Retrieved 28 July 2016 Mellor 405 406 Goedken V L Vallarino L M Quagliano J V December 1971 Cationic ligands Coordination of the 1 1 1 trimethylhydrazinium cation to nickel II Inorganic Chemistry 10 12 2682 2685 doi 10 1021 ic50106a011 a b c d e Mellor p419 Haynes W M ed 2014 CRC Handbook of Chemistry and Physics 95 ed CRC Press pp 4 77 4 78 ISBN 978 1 4822 0867 2 Meredith M Brett McMillen C Heather Goodman Jonathan T Hanusa Timothy P August 2009 Ambient temperature imidazolium based ionic liquids with tetrachloronickelate II anions Polyhedron 28 12 2355 2358 doi 10 1016 j poly 2009 04 037 Cotton F A Faut O D Goodgame D M L January 1961 Preparation Spectra and Electronic Structures of Tetrahedral Nickel II Complexes Containing Triphenylphosphine and Halide Ions as Ligands Journal of the American Chemical Society 83 2 344 351 doi 10 1021 ja01463a021 a b c Mellor p420 Inorganic chemistry Abstracts Journal of the Chemical Society Abstracts 46 1254 1884 doi 10 1039 CA8844601254 Mellor 457 Mellor J W 1946 Nickel A Comprehensive Treatise on Inorganic and Theoretical Chemistry Volume XV Ni Ru Rh Pd Os Ir Retrieved 17 January 2019 Jantsch G 11 June 1912 Zur Kenntnis der Doppelnitrate der seltenen Erden II Mitteilung Zeitschrift fur anorganische Chemie 76 1 303 323 doi 10 1002 zaac 19120760112 Mess K W Lagendijk E Zimmerman N J Van Duyneveldt A J Giesen J J Huiskamp W J July 1969 Magnetic and caloric study of the phase transitions of copper nickel manganese and cobalt lanthanum double nitrate Physica 43 2 165 208 Bibcode 1969Phy 43 165M doi 10 1016 0031 8914 69 90001 9 Urbain G 1 July 1904 Sur une terre yttrique voisine du gadolinium Comptes rendus hebdomadaires des seances de l Academie des sciences 139 7 736 738 Retrieved 14 July 2016 a b Tenten A Jacobs H December 1991 Substitutionsvarianten von Nickel II amid ternare amidoniccolate mit Lithium und Caesium Li 3 Ni 4 NH 2 11 NH 3 displaystyle ce Li3Ni4 NH2 11 NH3 nbsp und Cs 2 Ni NH 2 4 NH 3 displaystyle ce Cs2Ni NH2 4 NH3 nbsp Journal of Alloys and Compounds 177 2 193 217 doi 10 1016 0925 8388 91 90074 6 Jacobs Herbert Niewa Rainer Sichla Thomas Tenten Andreas Zachwieja Uwe January 1997 Metal nitrogen compounds with unusual chemical bonding nitrides imides amides and ammine complexes Journal of Alloys and Compounds 246 1 2 91 100 doi 10 1016 S0925 8388 96 02458 9 Tenten A Jacobs H October 1991 Partielle Substitution von Nickel durch Natrium in Nickel II amid Isolierte Na 4 Ni 2 NH 2 8 4 NH 3 displaystyle ce Na4Ni2 NH2 8 4NH3 nbsp Einheiten in Natriumtetraamidoniccolat II diammoniakat Zeitschrift fur anorganische und allgemeine Chemie in German 604 1 113 126 doi 10 1002 zaac 19916040115 Schmitz DuMont O Uecker G Schaal W October 1969 Dihydrogenphosphide und Dihydrogenphosphidosalze der Ubergangsmetalle I Nickel II dihydrogenphosphid und Kalium tris dihydrogen phosphido niccolat II Zeitschrift fur anorganische und allgemeine Chemie 370 1 2 67 79 doi 10 1002 zaac 19693700108 Retrieved from https en wikipedia org w index php title Nickel double salts amp oldid 1193351356, wikipedia, wiki, book, books, library,

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