List of 90 Solutions and 405 Compounds in FTsalt


List of 90 Solutions

1. FTsalt-A2C1
(K,Na)2CeCl5(ss) with partial solubility of Na in solid K2CeCl5.
Pearson : oP32; Space group : Pnma (62); Prototype : Y2HfS5.

2. FTsalt-A3C1
(K,Na)3CeCl6(ss) with partial solubility of Na in solid K3CeCl6.

3. FTsalt-A3C5
(K,Na)3Ce5Cl18(ss) with mutual solid solubility of K3Ce5Cl18 and Na3Ce5Cl18.

4. FTsalt-A3XF
Li3(Th,U,Pu)F7(ss) solid solution. Use [I]-option.
Estimated thermodynamic properties for Li3PuF7.

5. FTsalt-A7XF
Li7(Th,U,Pu)6F31(ss) solid solution. Use [I]-option.
Estimated thermodynamic properties for Li7Pu6F31.

6. FTsalt-aC1
Antifluorite Strukturbericht : FCC_C1; Pearson : cF12; Space group : Fm-3m (225); Prototype : Li2O. [I]-option.
Li2O, Li2S, Na2O, Na2S, Na2C2(ht), K2O, K2S, K2C2(ht), Rb2O, Rb2S, Cu2S-digenite, gamma-Ag2S are stable.

7. FTsalt-Arag
Aragonite Pearson : oP20; Space group : Pnma (62); Prototype : CaCO3-a. [I]-option.
CaCO3, SrCO3(lt), alpha-BaCO3, alpha-KNO3 are stable (old NKNA FTsalt solution).

8. FTsalt-AX2F
Li(Th,U,Pu)2F9(ss) solid solution. Use [I]-option.
Estimated thermodynamic properties for LiPu2F9.

9. FTsalt-AX4F
Li(Th,U,Pu)4F17(ss) solid solution. Use [I]-option.
Estimated thermodynamic properties for LiPu4F17.

10. FTsalt-B1
Rocksalt Strukturbericht : FCC_B1; Pearson : cF8; Space group : Fm-3m (225); Prototype : NaCl.
Possible 2- and 3-phase immiscibility (use [J]-option).

11. FTsalt-B10
Litharge Strukturbericht : B10; Pearson : tP4; Space group : P4/nmm (129); Prototype : alpha-PbO.
[I]-option. Alpha-PbO, alpha-SnO and LiOH are stable.

12. FTsalt-B2
CsCl Strukturbericht : BCC_B2; Pearson : cP2; Space group : Pm-3m (221); Prototype : CsCl.
Possible 2- and 3-phase immiscibility (use [J]-option).

13. FTsalt-B3
Sphalerite Strukturbericht : B3; Pearson : cF8; Space group : F-43m (216); Prototype : ZnS.
Possible 2- and 3-phase immiscibility (use [J]-option).

14. FTsalt-B4
Wurtzite Strukturbericht : B4; Pearson : hP4; Space group : P63mc (186); Prototype : ZnS-W.
[I]-option. Beta-AgI, BeO(lt), CdS, gamma-MnS, wurtzite-ZnS, zincite-ZnO are stable.

15. FTsalt-C1
Fluorite Strukturbericht : FCC_C1; Pearson : cF12; Space group : Fm-3m (225); Prototype : CaF2.
Possible 2-phase immiscibility (use [I]-option).

16. FTsalt-C2
Pyrite Strukturbericht : C2; Pearson : cP12; Space group : Pa-3 (205); Prototype : FeS2.
CoS2, FeS2, MnS2, NiS2 are stable.

17. FTsalt-C21
Brookite Strukturbericht : C21; Pearson : oP24; Space group : Pbca (61); Prototype : TiO2.
TiO2 and TeO2 are stable.

18. FTsalt-C23
Cotunnite Strukturbericht : C23; Pearson : oP12; Space group : Pnma (62); Prototype : PbCl2.
[I]-option. CaF2-ht, BaF2-ht, BaCl2-lt, PbCl2, HgCl2, MH2(M=Ca,Sr,Ba) stable (old SBCl FTsalt sol.).

19. FTsalt-C3
Cuprite Strukturbericht : C3; Pearson : cP6; Space group : Pn-3m (224); Prototype : Ag2O.
[I]-option. Ag2O, Cu2O and Pb2O are stable.

20. FTsalt-C35
Hydrophilite Strukturbericht : C35; Pearson : oP6; Space group : Pnnm (58); Prototype : CaCl2.
[I]-option. CaCl2 and CrCl2 are stable (distorted rutile C4 structure).

21. FTsalt-C4
Rutile Strukturbericht : C4; Pearson : tP6; Space group : P42/mnm (136); Prototype : TiO2. [J]-option.
MF2(M=Co,Fe,Mg,Mn,Ni,V,Zn), MO2(M=Nb,Ta,Ti), beta-CaCl2, gamma-MnO2 stable. (old MClL & MgF2 FTsalt solutions)

22. FTsalt-C5
Anatase Strukturbericht : C5; Pearson : tI12; Space group : I41/amd (141); Prototype : TiO2.
TiO2 is stable.

23. FTsalt-C6
CdI2 Strukturbericht : C6; Pearson : hP3; Space group : P-3m1 (164); Prototype : CdI2. MgCl2(b), TiCl2,
VCl2, MBr2(M=Co,Ti,V), FeBr2(lt), MI2(M=Ca,Cd,Fe,Mg,Mn,Pb,Ti,V), CoI2(a), M(OH)2{M=Cd,Co,Fe,Mg,Ni} stable.

24. FTsalt-C7
MS2 Strukturbericht : C7; Pearson : hP6; Space group : P63/mmc (194); Prototype : MoS2.
MoS2, TaS2, WS2 are stable.

25. FTsalt-cF60
Mg6MnO8 Pearson : cF60; Space group : Fm-3m (225); Prototype : Mg6MnO8.
Na6MnCl8, Li6FeCl8 and Li6NiCl8 are stable.

26. FTsalt-cFZ
ht-Li2SO4 Pearson : cFZ; Space group : F-43m (216); Prototype : alpha-Li2SO4.
[I]-option. Alpha-Li2SO4 is stable (old CSOA FTsalt solution).

27. FTsalt-cI28
Th3P4 Pearson : cI28; Space group : I-43d (220); Prototype : Th3P4. [I]-option.
K2SrCl4, K2BaCl4, Rb2BaCl4, Cs2BaCl4, K2PbCl4 stable (part of old AMX4 FTsalt sol.).

28. FTsalt-cI?
NaLiSO4-ht Pearson : cI?; Space group : unknown; Prototype : NaLiSO4-ht.
High-temperature LiNaSO4 solid solution (old LNSO FTsalt solution).

29. FTsalt-cP36
Pb(NO3)2 Pearson : cP36; Space group : Pa-3 (205); Prototype : Pb(NO3)2.
[J]-option. M(NO3)2 {M=Mg,Ca,Sr,Mn,Co,Ni,Pb} are stable.

30. FTsalt-cP40
ht-CsNO3 Pearson : cP40; Space group : Pa-3 (205); Prototype : ht-CsNO3.
[I]-opt. ht-CsNO3 stable (old CRKN, CNOH, CsKN, CsNB, CsNC FTsalt solutions).

31. FTsalt-D011
orthorhombic-REF3 Strukturbericht : D011; Pearson : oP16; Space group : Pnma (62); Prototype : Fe3C.
REF3 are stable (RE = Y,Sm,Eu,Gd,Tb,Ho,Er,Yb).

32. FTsalt-D012
alpha-FeF3 Strukturbericht : D012; Pearson : hR24; Space group : R-3c (167); Prototype : FeF3.
[I]-option. Alpha-AlF3(rt), alpha-FeF3(rt), MF3 (M=Co,Cr,Ga,In,Ti,V), alpha-AlH3 are stable.

33. FTsalt-D015
AlCl3 Strukturbericht : D015; Pearson : mC16; Space group : C2/m (12); Prototype : AlCl3.
AlCl3, CrCl3, InCl3 are stable.

34. FTsalt-D018
Na3As Strukturbericht : D018; Pearson : hP8; Space group : P63/mmc (194); Prototype : Na3As.
NpF3 and PuF3 are stable.

35. FTsalt-D021
Cu3P Strukturbericht : D021; Pearson : hP24; Space group : P63cm (185); Prototype : Cu3P.
UF3 is stable.

36. FTsalt-D04
CrCl3 Strukturbericht : D04; Pearson : hP24; Space group : P3112 (151); Prototype : CrCl3.
CrI3 is stable.

37. FTsalt-D05
BiI3 Strukturbericht : D05; Pearson : hR8; Space group : R-3 (148); Prototype : BiI3.
BiI3, MBr3(M=Bi,Cr,Fe,Ti,V), MCl3(M=Fe,Ti,V) are stable.

38. FTsalt-D09
ReO3 Strukturbericht : D09; Pearson : cP4; Space group : Pm-3m (221); Prototype : ReO3.
[I]-option. Beta-AlF3, beta-FeF3 and ScF3 are stable.

39. FTsalt-D31
Hg2Cl2 Strukturbericht : D31; Pearson : tI8; Space group : I4/mmm (139); Prototype : Hg2Cl2.
Hg2F2, Hg2Cl2, Hg2Br2 and Hg2I2 are stable.

40. FTsalt-dC1
Distorted_Fluorite Strukturbericht : FCC_C1; Pearson : cF12; Space group : Fm-3m (225); Prototype : CaF2.
Possible 2-phase immiscibility (use [I]-option).

41. FTsalt-E21_
cubic-Perovskite Strukturbericht : E21; Pearson : cP5; Space group : Pm-3m (221); Prototype : CaTiO3.
[J]-option. NaMgF3-ht, KMgF3, KCaF3-ht, KMgCl3-ht, KCaCl3-ht, KMnCl3 stable (part of old PRVK FTsalt sol.).

42. FTsalt-G01
Calcite Strukturbericht : G01; Pearson : hR30; Space group : R-3c (167); Prototype : CaCO3.
[I]-option. CaCO3, MgCO3, SrCO3(ht) LiNO3, alpha-NaNO3 stable (old NaNI FTsalt solution).

43. FTsalt-H11a
Al2MgO4 Strukturbericht : H11; Pearson : cF56; Space group : Fd-3m (227); Prototype : MgAl2O4.
[I]-option. Li2MnCl4 and Li2FeCl4(ht) are stable (part of old AMX4 FTsalt solution).

44. FTsalt-hP14
Glaserite Pearson : hP14; Space group : P-3m1 (164); Prototype : K3Na(SO4)2.
K3Na(SO4)2 and K3Na(CrO4)2 are stable (old KNSO FTsalt solution).

45. FTsalt-hP22
alpha-K2SO4 Pearson : hP22; Space group : P63/mmc (194); Prototype : K2SO4. [I]-option.
Hexagonal sol. (Na,K,Ag,[Li,Mg,Ca,Ba,Va])2(SO4,CO3,CrO4,[S]) (old CSOB, SCSO, SSUL FTsalt sol., old FTpulp Hexa)

46. FTsalt-hP24
hexagonal-REF3 Pearson : hP24; Space group : P-3c1 (165); Prototype : HoH3.
REF3 (RE = Pu,Y,La,Ce,Pr,Nd,Sm,Eu,Gd,Tb,Dy,Ho,Er,Tm,Yb,Lu) are stable.

47. FTsalt-hP30
hexa-Perovskite Pearson : hP30; Space group : P63/mmc (194); Prototype : BaTiO3-6H.
[J]-option. RbMgCl3 and CsMgCl3 are stable (part of old PRVK FTsalt solution).

48. FTsalt-hP45
RbNO3-IV Pearson : hP45; Space group : P31 (144); Prototype : RbNO3-IV. [I]-option.
CsNO3(rt) and RbNO3(rt) are stable (old CsKN and CNOL FTsalt solutions).

49. FTsalt-hR12
NaFeO2 Pearson : hR12; Space group : R-3m (166); Prototype : NaFeO2. [I]-option.
alpha-NaAlO2, NaMO2(M=Co,Cr,Fe,Ti,V) and KCrO2 are stable.

50. FTsalt-hR24
ht-(Na,[K])NO3 Pearson : hR24; Space group : R-3m (166); Prototype : NaNO3. [I]-option.
Beta-NaNO3 is stable (old ALKN, NaNI, KNBr, KNI FTsalt solutions).

51. FTsalt-hR30
Ilmenite Pearson : hR30; Space group : R-3 (148); Prototype : FeTiO3.
[J]-option. NaMgCl3 is stable (part of old PRVK FTsalt solution).

52. FTsalt-KNA_
KNO2(II) Space group : R-3m (166). Low temperature,
high KNO2-content solid binary solution - KNO2; dilute KNO3.

53. FTsalt-KNB_
KNO2(I) Space group : Fm-3m (225). High temperature,
high KNO2-content solid binary solution - KNO2; dilute KNO3.

54. FTsalt-KN_I
ht-(K,[Na])NO3 Pearson : hR24; Space group : R-3m (166); Prototype : KNO3. [I]-option.
Beta-KNO3 is stable (old ALKN, NaNI, KNBr, KNI FTsalt solutions).

55. FTsalt-LiNA
LiNO2(alpha) low temperature, high LiNO2-content solid binary solution
- LiNO2; dilute LiNO3.

56. FTsalt-LiNB
LiNO2(beta) high temperature, high LiNO2-content solid binary solution
- LiNO2; dilute LiNO3.

57. FTsalt-mP12
Li2K(OH)3 Pearson : mP12; Space group : P21/m (11); Prototype : Li2K(OH)3.
Li2K(OH)3 and Li2Rb(OH)3 are stable.

58. FTsalt-mP22
TiAl2Cl8 Pearson : mP22; Space group : P21/c (14); Prototype : TiAl2Cl8.
alpha-TiAl2Cl8 is stable.

59. FTsalt-mP24
CePO4 Pearson : mP24; Space group : P21/c (14); Prototype : CePO4.
[I]-option. SrCrO4 is stable.

60. FTsalt-mP2F
KAlCl4 Pearson : mP24; Space group : P21 (4); Prototype : KAlCl4.
KAlCl4(rt) and KFeCl4(rt) are stable.

61. FTsalt-mP2K
K2CO3 Pearson : mP24; Space group : P21/c (14); Prototype : K2CO3.
K2CO3 is stable (old KCO FTsalt solution).

62. FTsalt-mP2L
LiAlCl4 Pearson : mP24; Space group : P21/c (14); Prototype : LiAlCl4.
LiAlCl4 and LiFeCl4 are stable.

63. FTsalt-mP32
AlkM2Cl5 Pearson : mP32; Space group : P21/c (14); Prototype : U2PbSe5. [I]-option.
KSr2Cl5, KPb2Cl5 and RbSr2Cl5 stable (with Ba[2+] substitution of Sr[2+]) (old AMX5 FTsalt sol.).

64. FTsalt-mP4
beta-NaOH Pearson : mP4; Space group : P21/m (11); Prototype : beta-NaOH.
[I]-option. Beta-NaOH, lt-KOH, lt-RbOH are stable (old AOH_ FTsalt solutions).

65. FTsalt-mS24
gamma-Na2CO3 Pearson : mS24; Space group : C2/m (12); Prototype : gamma-Na2CO3-A.
Na2CO3 is stable (old NKCA FTsalt solution).

66. FTsalt-mS2B
beta-Na2CO3 Pearson : mS24; Space group : C2/m (12); Prototype : beta-Na2CO3-B.
Na2CO3 is stable (old NKCB FTsalt solution).

67. FTsalt-mS32
CsLiF2 Pearson : mS32; Space group : C2/c (15); Prototype : CsLiF2.
RbLiF2 and CsLiF2 are stable.

68. FTsalt-mS44
CoAl2Cl8 Pearson : mS44; Space group : C2/c (15); Prototype : CoAl2Cl8.
CoAl2Cl8, MgAl2Cl8, NiAl2Cl8, beta-TiAl2Cl8 are stable.

69. FTsalt-NaNB
NaNO2(beta) Pearson : oI16; Space group : Immm (71). High temperature,
high NaNO2-content solid binary solution - NaNO2; dilute NaNO3.

70. FTsalt-oC14
Mn2SnS4 Pearson : oC14; Space group : Cmmm (65); Prototype : Mn2SnS4. [I]-option.
Li2CoCl4 and Li2FeCl4(lt) are stable (part of old AMX4 FTsalt solution).

71. FTsalt-oF56
Na2SO4-V Pearson : oF56; Space group : Fddd (70); Prototype : Na2SO4-V.
[I]-option. Na2SO4-V, Cu2SO4 and alpha-Ag2SO4 are stable.

72. FTsalt-oP14
Sr2PbO4 Pearson : oP14; Space group : Pbam (55); Prototype : Sr2PbO4. [I]-option.
Na2FeCl4, Na2MgCl4, Na2MnCl4 are stable (part of old AMX4 FTsalt solution).

73. FTsalt-oP20
ortho-Perovskite Pearson : oP20; Space group : Pbnm/Pnma (62); Prototype : GdFeO3. [J]-option.
NaMgF3-lt, KCaF3-lt, KMgCl3-lt, KCaCl3-lt, KFeCl3, NaFeF3, NaNiF3 stable (part of old PRVK FTsalt sol.).

74. FTsalt-oP24
Barite Pearson : oP24; Space group : Pnma (62); Prototype : alpha-BaSO4. [J]-option.
BaCrO4, barite-BaSO4, celestite-SrSO4, AXCl4 (A=K,Rb,Cs;X=Al,Fe[3+]) are stable.

75. FTsalt-oP28
beta-K2SO4 Pearson : oP28; Space group : Pnma (62); Prototype : K2SO4. [I]-option.
beta-K2SO4(lt), K2CrO4(lt), Cs2MgCl4, K2CoCl4 are stable. (old KSO & part of old AMX4 FTsalt sol.).

76. FTsalt-oP2F
NaAlCl4 Pearson : oP24; Space group : P212121 (19); Prototype : NaAlCl4.
NaAlCl4 and NaFeCl4 are stable.

77. FTsalt-oP44
CrAl2Cl8 Pearson : oP44; Space group : Pca21 (29); Prototype : CrAl2Cl8.
CrAl2Cl8 is stable.

78. FTsalt-oP52
Li4TbF8 Pearson : oP52; Space group : Pnma (62); Prototype : Li4TbF8. [I]-option.
Li4(U,Pu)F8(ss) solid solution. Estimated thermodynamic properties for Li4PuF8.

79. FTsalt-oS16
RbLiCl2 Pearson : oS16; Space group : P31 (63); Prototype : RbLiCl2.
RbLiCl2 and RbLiBr2 are stable.

80. FTsalt-oS24
Anhydrite Pearson : oS24; Space group : Amma (63); Prototype : CaSO4.
[I]-option. CaSO4(lt), MgSO4(lt) and MgCrO4 are stable.

81. FTsalt-oS28
Na2CrO4 Pearson : oS28; Space group : Cmcm (63); Prototype : Na2CrO4. [I]-option.
Na2CrO4 and Na2SO4-III are stable (old NKSO FTsalt solution).

82. FTsalt-PERC
NaClO4-KClO4(HT) Space group : Fm-3m (225). High temperature solid solution dilute in LiClO4.
Miscibility gap when both NaClO4 and KClO4 are present : use I-option.

83. FTsalt-R-3m
CdCl2 Pearson : hR9; Space group : R-3m (166); Prototype : CdCl2. [I]-option.
MCl2(M=Cd,Co,Fe,Mg,Mn,Ni), MBr2(M=Cd,Mg,Mn,Ni,Zn), FeBr2(ht), NiI2 are stable.

84. FTsalt-SALT
Salt-liquid (main ions : Li,Na,K,Rb,Cs,Mg,Ca,Sr,Ba,Al,Fe[2+,3+],Mn,Co,Ni,Zn,Pb,La,Ce,
Th,U[3+,4+],Pu[3+,4+],Cr[2+,3+],Mo[5+] & F,Cl,Br,I,O(dilute),OH,NO3,NO2,ClO4,CO3,SO4). [I]-option.

85. FTsalt-tI14
K2NiF4 Pearson : tI14; Space group : I4/mmm (139); Prototype : K2NiF4. [I]-option.
K2MgCl4, Rb2MgCl4, K2MgF4, Rb2MgF4 are stable (part of old AMX4 FTsalt solution).

86. FTsalt-tI24
ZrSiO4 Pearson : tI24; Space group : I41/amd (141); Prototype : ZrSiO4.
[I]-option. CaCrO4 and ZrSiO4 are stable.

87. FTsalt-tI2F
Sr3Ti2O7 Pearson : tI24; Space group : I4/mmm (139); Prototype : Sr3Ti2O7.
K3Mn2Cl7 and K3Mg2Cl7 are stable.

88. FTsalt-tI32
alpha-Na2C2 Pearson : tI32; Space group : I41/acd (142); Prototype : alpha-Na2C2.
alpha-Na2C2(lt) and alpha-K2C2(lt) are stable.

89. FTsalt-tP6
PbFCl Pearson : tP6; Space group : P4/nmm (129); Prototype : PbFCl.
CaFCl, SrFCl, BaFCl and PbFCl are stable. Use [I]-option.

90. FTsalt-XF4_
(Th,U,Pu)F4(ss) solid solution.


List of 405 Compounds

Ag2CO3s1-s3,lAg2CrO4sAg2Os,l
Ag2Ss1-s3,lAg2SO4s1,s2,lAgBrs,l
AgCls,lAgFs,lAgIs1,s2,l
AgNO3s1,s2,lAlCl3sBa(NO3)2s,l
BaBr2s,lBaCl2s1,s2,lBaClFs
BaCO3s1-s3,lBaCrO4sBaF2s1,s2,l
BaI2s,lBaMgF4sBaSO4s1,s2
Be(OH)2s1,s2BeBr2s,lBeCl2s1,s2,l
BeF2s1,s2,lBeI2s,lBeOs1,s2,l
BeSO4s1-s3,lBiF3s,lCa(NO3)2s,l
Ca(OH)2sCaAlCl5sCaBaCl4s
CaBeF4sCaBr2s,lCaCl2s1,s2,l
CaCO3s1,s2,lCaCrO4sCaF2s1,s2
CaFClsCaFeCl5sCaI2s,l
CaMg(CO3)2sCaOs,lCaO(CaCl2)4s1,s2
CaOHClsCaSO4s1,s2,lCdBr2s,l
CdCl2s,lCdF2s,lCdI2s,l
CdOsCeCl3s,lCeF3s,l
Co(NO3)2sCoAl2Cl8sCoBr2s1,s2,l
CoCl2s,lCoF2s,lCoFe2Cl8s
CoI2s,lCoS2sCr(CrO4)s,l
Cr(OH)2sCr2(CrO4)3s,lCr2(SO4)3s,l
CrAl2Cl8sCrCl2s,lCrCl3s,l
CrF2s,lCrI2sCrSs
CrSO4lCs2BaCl4sCs2C2s
Cs2CO3s,lCs2MgCl4sCs2Os,l
Cs2SsCs2SO4s1,s2,lCs3CeCl6s
Cs3LaCl6sCs3MgCl5sCsBaCl3s
CsBrs1,s2,lCsCaCl3sCsCe2Cl7s
CsCls1,s2,lCsFs,lCsHs,l
CsIs1,s2,lCsLa2Cl7sCsLi(NO3)2s
CsLi5(OH)6sCsMg3Cl7sCsMgCl3s
CsNO3s1,s2,lCsOHs1,s2,lCsSrCl3s
Cu(OH)2sCu2Os,lCu2Ss1-s3,l
Cu2SO4sCuBrs1-s3,lCuBr2s,l
CuCls,lCuCl2s,lCuFs,l
CuF2s,lCuIs1-s3,lCuOs,l
CuS2sDyF3s1,s2,lErF3s1,s2,l
EuF3s1,s2,lFeAl2Cl8sFeBr2s1,s2,l
FeCl2s,lFeCl3s,lFeF2s,l
FeI2s1,s2,lFeS2sGdF3s1,s2,l
Hg2Br2sHg2Cl2sHg2F2s
Hg2I2s,lHgBr2s,lHgCl2s,l
HgF2s,lHgI2s1,s2,lHoF3s1,s2,l
K2(OH)(NO3)sK2BaCl4sK2C2s1,s2
K2Ca2(SO4)3sK2CeCl5sK2ClNO3s
K2CO3s1,s2K2CoCl4sK2CrO4s1,s2,l
K2FeCl4sK2LaCl5sK2Mg(CO3)2s
K2Mg(NO3)4s1,s2K2MgCl4sK2MgF4s
K2Os,lK2PbCl4sK2Ss,l
K2S2sK2S3sK2S4s
K2S5sK2S6sK2SO3s,l
K2SO4s1,s2,lK2SrCl4sK2ZnCl4s1,s2
K3Ce5Cl18sK3CeCl6sK3F(CO3)s
K3F(SO4)s1,s2K3La5Cl18sK3Mg2Cl7s
K3Mn2Cl7sK3Na(SO4)2sK4MnCl6s
K5Zn4Cl13sKAlCl4s1,s2KBrs1,s2,l
KCaCl3s1-s3KCaF3s1,s2KCls1,s2,l
KClO4s1,s2,lKCoCl3sKCrO2s
KFs,lKFeCl3sKFeCl4s1,s2
KFeO2sKIs1,s2,lKLi(NO3)2s
KLi(SO4)s1-s3KLi3(NO2)4sKLiCO3s
KMgCl3s1,s2KMgF3sKMnCl3s
KNiCl3sKNO2s1,s2,lKNO3s1,s2,l
KOHs1,s2,lKPb2Cl5sKSr2Cl5s
KZn2Cl5sLaCl3s,lLaF3s,l
Li16BaSrF20sLi2C2s1,s2Li2CO3s1,s2,l
Li2CoCl4sLi2CrO4s1,s2,lLi2FeCl4s1,s2
Li2K(OH)3sLi2MnCl4sLi2NiCl4s
Li2Os,lLi2O2s,lLi2OHBrs
Li2OHClsLi2OHIsLi2OHNO3s
Li2Rb(OH)3sLi2SsLi2SO4s1,s2,l
Li3ThF7sLi4(OH)3BrsLi4CoCl6s
Li4PuF8sLi4UF8sLi5(OH)4Is
Li6FeCl8sLi6NiCl8sLi7Pu6F31s
Li7Th6F31sLi7U6F31sLiAlCl4s
LiBaF3sLiBrs,lLiCls,l
LiClO4s,lLiCoCl3sLiCs2Cl3s
LiCsBr2sLiCsF2sLiFs,l
LiFeCl4sLiIs,lLiKMgCl4s
LiNa(OH)2sLiNa(SO4)sLiNO2s1,s2,l
LiNO3s,lLiOHs,lLiPu4F17s
LiRb(NO3)2sLiRbBr2sLiRbCl2s
LiRbF2sLiRbI2sLiTh2F9s
LiTh4F17sLiU4F17sLuF3s1,s2,l
Mg(ClO4)2s1-s3,lMg(NO2)2s,lMg(NO3)2s,l
Mg(OH)2sMg(OH)ClsMgAl2Cl8s
MgBa2Cl6sMgBr2s,lMgCl2s,l
MgCO3s,lMgCrO4sMgF2s,l
MgFe2Cl8sMgI2s,lMgOs,l
MgSO4s1,s2,lMnAl2Cl8sMnBr2s,l
MnCl2s,lMnF2s1,s2,lMnFe2Cl8s
MnI2s,lMnS2sNa2(NO3)(NO2)s
Na2(OH)(NO3)sNa2C2s1,s2Na2CO3s1-s3,l
Na2CoCl4sNa2CrO4s1,s2,lNa2FeCl4s
Na2MgCl4sNa2Mn3Cl8sNa2MnCl4s
Na2NiCl4sNa2Os1-s3,lNa2Ss,l
Na2S2s1,s2Na2S4sNa2S5s
Na2SO3s1,s2,lNa2SO4s1-s4,lNa2ZnCl4s
Na3(OH)(SO4)sNa3(OH)2(NO3)sNa3Ce5Cl18s
Na3F(SO4)sNa3La5Cl18sNa3Mg2BaCl9s
Na5OHI4sNa6MnCl8sNa9Mn11Cl31s
NaAlCl4sNaBrs,lNaCls,l
NaClO4s1,s2,lNaFs,lNaFeCl4s
NaFeF3sNaFeO2s1-s3NaIs,l
NaMgCl3sNaMgF3s1,s2NaMn4Cl9s
NaNiF3sNaNO2s1,s2,lNaNO3s1,s2,l
NaOHs1,s2,lNaRb3(NO3)4sNbCl2s
NdF3s,lNH4OHs,lNiAl2Cl8s
NiBr2s,lNiCl2s,lNiF2s,l
NiFe2Cl8sNiI2s,lNiS2s
NpF3sPb(NO3)2sPbBr2s,l
PbCl2s,lPbF2s1,s2,lPbFCls
PbI2s,lPbOs1,s2,lPbSO4s1,s2,l
PrF3s,lPuF3s,lPuF4s,l
Rb2BaCl4sRb2C2sRb2CeCl5s
Rb2CO3s1,s2,lRb2LaCl5sRb2MgCl4s
Rb2Os1-s3,lRb2OHNO3sRb2Ss
Rb2SO4s1,s2,lRb3CeCl6sRb3LaCl6s
RbBrs1,s2,lRbCaCl3sRbCe2Cl7s
RbCls1,s2,lRbFs,lRbIs1,s2,l
RbLa2Cl7sRbMgCl3sRbNO3s1-s4,l
RbOHs1,s2,lRbSr2Cl5sRbSrCl3s
Ss1,s2,lScF3s,lSmF3s1,s2,l
SnCl2s,lSr(NO3)2s,lSrBr2s1,s2,l
SrCl2s1,s2,lSrCO3s1,s2,lSrCrO4s
SrF2s,lSrFClsSrI2s,l
SrMgF4s1,s2SrSO4s1,s2,lTbF3s1,s2,l
ThF4s,lTiAl2Cl8s1,s2TiBr2s
TiCl2s,lTiCl3s,lTiF2s
TiI2sTiOs1,s2,lTmF3s1,s2,l
UF3s,lUF4s,lVBr2s
VCl3s,lVF2s,lVI2s
YbF3s1,s2,lYF3s1,s2,lZnBr2s,l
ZnCl2s,lZnF2s1,s2,lZnI2s,l