List of 125 Solutions and 415 Compounds in FSlead
List of 125 Solutions
1. FSlead-A1
FCC-A1 Prototype-Cu Strukturbericht = A1; Pearson = cF4; Space Group = Fm-3m (225); [J]
C, N, B, H and O interstitial (Strukturbericht = B1; Pearson = cF8 with full interstitials)
2. FSlead-A10
RHOM-A10;Prototype-Hg Strukturbericht = A10; Pearson = hR1; Space group = R-3m (166);
Rhombohedral-Hg(alpha)
3. FSlead-A11
ORTH-A11;Prototype-Ga Strukturbericht = A11; Pearson = oC8; Space group = Cmca (64);
Orthorhombic-Ga(alpha)
4. FSlead-A13
CUB-A13;Prototype-Mn Strukturbericht = A13; Pearson = cP20; Space group = P4132 (213); [I]
beta-Mn and Ag3Al are stable; with C and N interstitials
5. FSlead-A16
A16;Prototype-alpha-S Strukturbericht = A16; Pearson = oF128; Space group = Fddd (70);
alpha-S stable;
6. FSlead-A2
BCC-A2 Prototype-W Strukturbericht = A2; Pearson = cI2; Space Group = Im-3m (229); [I]
C, H, N and B interstitial on tetrahedral sites
7. FSlead-A3'
DHCP-A3';Prototype-La Strukturbericht = A3'; Pearson = hP4; Space group = P63/mmc (194);
La, Ce, Pr, Nd, Pm, Au(Sn)
8. FSlead-A3
HCP-A3 Prototype-Mg Strukturbericht = A3; Peason = hP2; Space group = P63/mmc (194); [I]
Pearson = hP3 with M2X-hcp carbides, nitrides, borides, hydrides and oxides
9. FSlead-A3"
HCP-Zn;Prototype-Mg Strukturbericht = A3; Pearson = hP2; Space group = P63/mmc (194); [I]
Higher c/a ratio than Mg-HCP_A3
10. FSlead-A4
DIAM-A4;Prototype-C (diamond) Strukturbericht = A4; Pearson = cF8; Space group = Fd-3m (227); [I]
C-diamond, Ge, alpha-Sn and Si are stable
11. FSlead-A5
BCT-A5;Prototype-Sn Strukturbericht = A5; Pearson = tI4; Space group = I41/amd (141);
Beta-Sn
12. FSlead-A6
TET-A6;Prototype-In Strukturbericht = A6; Pearson = tI2; Space group = I4/mmm (139); [I]
Tetragonal-In(alpha)
13. FSlead-A6o
TET-A6o;Prototype-In Strukturbericht = A6; Pearson = tI2; Space group = I4/mmm (139); [I]
Ordered tetragonal solution found in In-rich systems with Bi, Cd, Pb & Sn.
14. FSlead-A7
RHOM-A7;Prototype-As Strukturbericht = A7; Pearson = hR2; Space group = R-3m (166); [I]
Rhombohedral-As(alpha)
15. FSlead-A8
HEX-A8;Prototype-Se Strukturbericht = A8; Pearson = hP3; Space group = P3121 (152);
hexagonal-Se(gamma), Te is also stable;
16. FSlead-Af
HEX-Af;Prototype-HgSn9 Strukturbericht = Af; Pearson = hP1; Space group = P6/mmm (191);
gamma-HgSn9 (disordered), gamma-InSn are stable
17. FSlead-Ak
Ak;Prototype-Se Strukturbericht = Ak; Pearson = mP64; Space group = P21/c (14);
beta-S is stable
18. FSlead-Al
Al;Prototype-Se Strukturbericht = Al; Pearson = mP32; Space group = P21/c (14);
intermediate X solution in S-Se
19. FSlead-aP40
aP40;Prototype-Cu7In3 Pearson = aP40; Space group = P-1 (2);
Cu7In3 is stable
20. FSlead-B1
FCC-B1;Prototype-NaCl (halite) Strukturbericht = B1; Pearson = cF8; Space group = Fm-3m (225); [I]
Halite structure; MeS(Me=Ca,Mg,Mn,Pb), PbX(X=S,Se,Te), SnX(X=As,S,Te), RESb (RE=Ce,Nd,Pr,Sm) are stable
21. FSlead-B11
B11;Prototype-CuTi Strukturbericht = B11; Pearson = tP4; Space group = P4/nmm (129); [I]
AgTi, AgZr, alpha-AuTi, gamma-CuTi, beta1-NiZn, CdTi are stable
22. FSlead-B13
B13;Prototype-NiS (millerite) Strukturbericht = B13; Pearson = hR18; Space group = R3m (160);
NiS Millerite low-T solid solution dilute in CuS & FeS
23. FSlead-B16
B16;Prototype-GeS Strukturbericht = B16; Pearson = oP8; Space group = Pnma (62);
alpha-SnS(herzenbergite) and alpha-SnSe
24. FSlead-B18
B18;Prototype-CuS (covellite) Strukturbericht = B18; Pearson = hP12; Space group = P63/mmc (194);
CuS-covellite and gamma-CuSe are stable
25. FSlead-B2
BCC-B2!BCC-A2 Prototype-CsCl Strukturbericht = B2; Pearson = cP2; Space group = Pm-3m (221); [I]
AlFe, AlMn, FeSi, AlTi, AlPt(ht), FeTi, CuZn-beta', CuZr, NiZn, AgLi, AgMg, BeCu, CaIn are stable
26. FSlead-B2_c
BCC-B2c;Prototype-CsCl Strukturbericht = B2; Pearson = cP2; Space group = Pm-3m (221); [I]
AlNi, GaNi and delta-InNi ordered BCC solution with lattice vacancies
27. FSlead-B20
B20;Prototype-FeSi (naquite) Struktutbericht = B20; Pearson = cP8; Space group = P213 (198); [I]
(Co,Cr,Fe,Mn)Si monosilicide with NiSi solubility, PtAl, PtGa, PtMg, Ni2AlSi are stable
28. FSlead-B3
B3;Prototype-ZnS (sphalerite) Strukturbericht = B3; Pearson = cF8; Space group = F-43m (216); [J]
Zn(S,Te), beta-3C-SiC, (Al,Ga,In)[P,As,Sb], BN-cubic(beta) are stable;
29. FSlead-B31
B31;Prototype-FeAs Strukturbericht = B31/B14; Pearson = oP8; Space group = Pnma (62);
CoP, FeP, MnP, NiSi, AuGa, PtGe, PtSi and NiGe are stable
30. FSlead-B33
B33;Prototype-CrB Strukturbericht = B33; Pearson = oC8; Space group = Cmcm (63); [I]
CrB, NbB, NiB, VB, WB, CaSi, SrSi, BaSi, CaSn, SrSn, LaSn, AlHf, AlY, RESi (RE=Sc,Y) are stable
31. FSlead-B35
B35;Prototype-CoSn Strukturbericht = B35; Pearson = hP6; Space group = P6/mmm (191);
CoSn, FeSn, NiIn are stable
32. FSlead-B4
B4;Prototype-ZnS (wurtzite) Strukturbericht = B4; Pearson = hP4; Space group = P63mc (186); [J]
AlN, GaN, InN and ZnS are stable; gamma-BN is metastable; 2H-SiC is metastable
33. FSlead-B8x
B81/B82;NiAs/InNi2 Strukturbericht = B81/B82; Pearson = hP4/hP6; Space group = P63/mmc (194); [I]
B81-prototype_NiAs (Va on 2d sites) and B82-prototype_InNi2 (Me on 2d sites); eta-CuSn and many compounds;
34. FSlead-B9
B9;Prototype-HgS (cinnabar) Strukturbericht = B9; Pearson = hP6; Space group = P3221 (152);
HgS-cinnabar and HgO are stable
35. FSlead-Bb
Bb;Prototype-AgZn Strukturbericht = Bb; Pearson = hP9; Space group = P-3 (147);
eta-AgZn (also called Beta-prime)
36. FSlead-Be
Be;Prototype-CdSb Strukturbericht = Be; Pearson = oP16; Space group = Pbca (61);
omega-CdSb and beta-ZnSb are stable
37. FSlead-C11a
C11a;Prototype-CaC2 Strukturbericht = C11a; Pearson = tI6; Space group = I4/mmm (139);
CaC2-I, SrC2, BaC2 are stable
38. FSlead-C12
C12;Prototype-CaSi2 Strukturbericht = C12; Pearson = hR6; Space group = R-3m (166);
CaSi2, GaGe2 dissolving Al and Sn
39. FSlead-C14
C14;Prototype-MgZn2 (Laves) Strukturbericht = C14; Pearson = hP12; Space group = P63/mmc (194); [I]
Al2Zr,CaLi2,Cr2(Ti,Zr),Fe2(Mo,Sc,Ti,W),Mg2(Ca,Sr,Ba),Mg2RE(RE = Y,Tb,Dy,Ho,Er,Tm,Yb,Lu) are stable phases
40. FSlead-C15
C15;Prototype-MgCu2 (Laves) Strukturbericht = C15; Pearson = cF24; Space group = Fd-3m (227); [I]
Al2Ca, Al2Sc, Al2Y, Al2Ba, Al2RE (RE=La to Lu), Cr2Nb, Co2Hf, Co2Ta, Co2Zr, Mn2Y, Mg2RE & Fe2RE(RE = La,Ce,Pr,Nd,Sm,Gd)
41. FSlead-C15a
C15a;Prototype-MgCu2 (Laves) Strukturbericht = C15; Pearson = cF24; Space group = Fd-3m (227); [I]
Ag2Na and Au2Bi are stable;
42. FSlead-C16
C16;Prototype-Al2Cu Strukturbericht = C16; Pearson = tI12; Space group = I4/mcm (140); [I] CoSn2, FeSn2, MnSn2, NiTa2, C
theta-Al2Cu, Co2B, Fe2B, Mn2B, Mo2B, Ni2B, Ta2B, W2B, Zr2Fe, Ta2Si, Zr2Si and Zr2Ni are stable
43. FSlead-C18
C18;Prototype-FeS2 (marcasite) Strukturbericht = C18; Pearson = oP6; Space group = Pnnm (58); [I]
FeS2(marcasite), FeSe2(ferroselite), FeTe2(frohbergite), CuSe2(petricekite), NiAs2(rammelsbergite) are stable
44. FSlead-C1a
aC1;Prototype-CaF2 (antifluorite) Strukturbericht = C1; Pearson = cF12; Space group = Fm-3m (225); [J]
Mg2Si, Mg2Sn, Mg2Ge, Mg2Pb, CoSi2, NiSi2, Al2Au, Ga2Au, Ga2Pt are stable
45. FSlead-C1b
C1b;Prototype-MgAgAs Strukturbericht = C1b; Pearson = cF12; Space group = F-43m (216); [I]
beta1-Ni3S2(ht) is stable
46. FSlead-C2
C2;Prototype-FeS2 (pyrite) Strukturbericht = C2; Pearson = cP12; Space group = Pa-3 (205); [I]
beta-FeS2(pyrite), NiS2(vaesite), CoS2(cattierite), MnS2(hauerite), CoSe2(trogtalite), MnSe2, NiSe2(penrosite) are stabl
47. FSlead-C29
C29;Prototype-SrH2 Strukturbericht = C29; Pearson = oP12; Space group = Pnma (62); [I]
alpha-BaH2, CaH2 and alpha-SrH2 are stable
48. FSlead-C3
C3;Prototype-Cu2O (cuprite) Strukturbericht = C3; Pearson = cP6; Space group = Pn-3m (224);
Cu2O-cuprite and Ag2O are stable
49. FSlead-C32
C32;Prototype-AlB2 Strukturbericht = C32; Pearson = hP3; Space group = P6/mmm (191); [I]
AlB2, CrB2, HfB2, MgB2, MnB2, NbB2, TiB2, VB2, ZrB2, BaGa2, SrGa2 are stable
50. FSlead-C33
C33;Prototype-Bi2Te3 Strukturbericht = C33; Pearson = hR5; Space group = R-3m (166); [I]
Bi2Te3, Bi2Se3, Sb2Te3 are stable
51. FSlead-C34
C34;Prototype-AuTe2 (calaverite) Strukturbericht = C34; Pearson = mC6; Space group = C2/m (12);
AuTe2-Calaverite is stable
52. FSlead-C37
C37;Prototype-Co2Si Strukturbericht = C37/C23; Pearson = oP12; Space group = Pnma (62); [I]
Co2Si, AlRE2 (RE=Pr,Nd,Sm,Gd,Tb,Dy,Ho,Er), CuCa2, PbCa2, SnCa2, SnSr2, Sr2Si, Ca2Si, Ni2Si, Ni2Ge are stable
53. FSlead-C38
C38;Prototype-Cu2Sb Strukturbericht = C38; Pearson = tP6; Space group = P4/nmm (129);
Cu2As, eta-Cu2Sb, Cu2Te, Mn2Sb are stable;
54. FSlead-C42
C42;Prototype-CeCu2 Strukturbericht = C42; Pearson = oI12; Space group = Ibam (72); [I]
Al2Sr, REZn2, (Al,Mg,Zn,Cu,Ag)2{Ca,Sr,Ba} and (Mg,Zn)2{Ce,Dy,Eu,Er,Gd,Ho,La,Lu,Nd,Pm,Pr,Sc,Sm,Tb,Tm,Y,Yb}
55. FSlead-C6
C6;Prototype-CdI2 Strukturbericht = C6; Pearson = hP3; Space group = P-3m1 (164); [I]
(Fe,Ni,Co)Te2-x, SiTe2, SnS2, ZrS2 and SnSe2 are stable
56. FSlead-cF44
cF44;Prototype-Cu2Se (berzelianite) Pearson = cF44; Space group = Fm-3m (225); [I] (fluorite-CaF2 C1 family)
Cu2S(digenite/bornite), gamma-Ag2S, beta1-Ni2Te(ht) are stable
57. FSlead-Ch
Ch;Prototype-Cu2Te Strukturbericht = Ch; Pearson = hP6; Space group = P6/mmm (191)
Cu2Te
58. FSlead-Chal
Chalcocite Pearson = mP144; Space group = P21/c (14);
low-temperature Cu2S(chalcocite)
59. FSlead-cI20
cI20;Prototype-Ag2S (argentite) Pearson = cI20; Space group = Im-3m (229);
Ag2S(argentite) and Ag2Se(ht) with Cu solubility
60. FSlead-cP_
beta2 Pearson = cP*; [I]
beta2-Ni3S2(ht) is stable (near ht-heazelwoodite)
61. FSlead-cP60
cP60;Prototype-Ba8Ga7 Pearson = cP60; Space group = P213 (198);
Al7Sr8, Ga7Sr8 and Ga7Ba8 are stable;
62. FSlead-CuMS
iss_CuMeS2-x nonstoichiometric solid solution [Cu2,Ni2,Fe,Va]S often denoted as Iss [I]
It is not stable in the Cu-S or Me-S binary systems
63. FSlead-D011
D011;Prototype-Fe3C (cementite) Strukturbericht = D011/D020; Pearson = oP16; Space group = Pnma (62); [I]
M3C-cementite Fe3C, Mn3C, Co3B, Ni3B, Al3Ni, RE3Ni and Ni3Si are stable (Co,Cr,Nb,N,Ni,W solubility)
64. FSlead-D019
D019;Prototype-Ni3Sn Strukturbericht = D019; Pearson = hP8; Space group = P63/mmc (194); [I]
Ni3Sn(LT), Ti3Sn, M3Al (M=Mo,Nb,Ta,Ti,Zr), RE3Al (RE=La,Ce,Pr,Nd) & Al3RE (RE=Y,La,Ce,Pr,Nd,Sm,Gd), Co3W, Mo3Pt are stab
65. FSlead-D024
D024;Prototype-Ni3Ti Strukturbericht = D024; Pearson = hP16; Space group = P63/mmc (194); [I]
Ni3Ti, Al3Dy and Au3Ga are stable
66. FSlead-D03
D03;Prototype-BiF3 Strukturbericht = D03; Pearson = cF16; Space group = Fm-3m (225); [I]
beta-Ni3Sn(ht), M3RE (M = Mg,Zn, RE = Ce,La,Pr,Nd,Sm,Gd,Tb,Dy,Lu,Tm), Mn3Si, gamma-Cu3Sn, Cu3Sb(ht)
67. FSlead-D03a
D03a;Prototype-BiF3 Strukturbericht = D03a; Pearson = cF16; Space group = Fm-3m (225); [I]
Fe3Si is stable
68. FSlead-D0a
D0a;Prototype-Cu3Ti Strukturbericht = D0a; Pearson = oP8; Space group = Pmmn (59);
Ag3Sn, Ni3Mo, Ni3Nb, Cu2Sb, Ni3Sb and Ni3Ta are stable
69. FSlead-D13
D13;Prototype-Al4Ba Strukturbericht = D13; Pearson = tI10; Space group = I4/mmm (139); [I]
Al4Ca, Al4Sr, Al4Ba, Al4Eu, Ga4Sr, Ga4Ba with Mg, Si and Zn solubility
70. FSlead-D23
D23;Prototype-NaZn13 Strukturbericht = D23; Pearson = cF112; Space group = Fm-3c (226); [I]
XZn13 (X = Na,Ca,Sr,Ba,La,Eu) with Mg solubility Re8Zn8Zn96(full
71. FSlead-D2d
D2d;Prototype-CaCu5 Strukturbericht = D2d; Pearson = hP6; Space group = P6/mmm (191); [I]
Zn5RE (RE=Ce,La,Eu) CaZn5, CaCu5, SmCu5, SrZn5, SrCu5, SrAg5, BaAg5 and most RECo5 are stable
72. FSlead-D510
D510;Prototype-Cr3C2 Strukturbericht = D510; Pearson = oP20; Space group = Pnma (62);
Cr3C2 with substitution of Cr by Co, Fe, Mn, Mo, Nb, Ni, V and W
73. FSlead-D513
D513;Prototype-Al3Ni2 Strukturbericht = D513; Pearson = hP5; Space group = P-3m1 (164);
Al3Ni2, Al3Pt2, Ga3Ni2, Ga3Pt2, In3Pt2 and In3Ni2 are stable
74. FSlead-D55
D55;Prototype-CaF2 Strukrturbericht = D55; Pearson = cP10; Space group = Pn-3m (224);
beta-Cd3As2 and beta-Zn3As2 are stable (CaF2-type)
75. FSlead-D58
D58;Prototype-Sb2S3 (stibnite) Strukturbericht = D58; Pearson = oP20; Space group = Pnma (62);
Bi2S3-Bismuthinite and Sb2S3-Stibnite are stable
76. FSlead-D59
D59;Prototype-Zn3P2 Strukturbericht = D59; Pearson = tP40; Space group = P42/nmc (137);
alpha_prime Zn3As2, alpha"-Cd3As2, Cd3P2 and Zn3P2 are stable
77. FSlead-D5e
D5e;Prototype-Ni3S2 Strukturbericht = D5e; Pearson = hR15; Space group = R32 (155);
Heazlewoodite-Ni3S2 with Fe solubility
78. FSlead-D82
D82;Prototype-Cu5Zn8 Strukturbericht = D82; Pearson = cI52; Space group = I-43m (217); [I]
Al8Fe5, Al8Cr5(HT), Al8V5, (Ag,Cu,Fe)5Zn8, AlCu(HT), Fe5Zn8, gamma-NiZn, (Ag,Cu)5Cd8 are stable
79. FSlead-D83
D83;Prototype-Cu9Al4 Strukturbericht = D83; Pearson = cP52; Space group = P-43m (215); [I]
gamma-Cu9Al4(low-T), Co4Zn9 and "InAg2" are stable
80. FSlead-D86
D86;Prototype-Cu15Si4 Strukturbericht = D86; Pearson = cI76; Space group = I-43m (217);
epsilon-Cu15Si4 with Al and Ni solubility
81. FSlead-D88
D88;Prototype-Mn5Si3 Strukturbericht = D88; Pearson = hP16; Space group = P63/mcm (193); [I]
(Si,Sn,Ti)3(Cr,Fe,Mn,Nb,RE,Ta,Ti,V,Zr)3(Cr,Fe,Mn,Nb,RE,Ta,Ti,V,Zr)2(Va,Si,Al,B,C,N)1
82. FSlead-D89
D89;Prototype-Co9S8 Strukturbericht = D89; Pearson = cF68; Space group = Fm-3m (225); [I]
pentlandtite ternary MeS8 (Me=Fe,Ni,Co) with Cu solubility
83. FSlead-D8l
D81;Prototype-Cr5B3 Strukturbericht = D8l; Pearson = tI32; Space group = I4/mcm (140); [I]
Cr5B3, RE5Si3 (RE=La,Ce,Pr,Nd), Ca5Ag3, Ca5Zn3, Ca5Si3, Ca5Sn3, Ca5Ga3, Sr5Pb3, Sr5Sn3 are stable
84. FSlead-Djur
Djurleite Pearson = mP376; Space group = P21/c (14);
Cu1.95S(djurleite)
85. FSlead-FeZ2
FeZn-delta1 Pearson = hP556; Space group = P63/mmc (194);
'FeZn7'
86. FSlead-Gam1
FeZn-Gamma-1 brass cF408 F-43m
Fe-Zn binary phase at ca. 74-78 at.% Zn. Stable to ca. 820 K.
87. FSlead-H11
H11;Prototype-Fe3O4 (magnetite) Strukturbericht = H11; Pearson = cF56; Space group = Fd-3m (227);
Thiospinel; Ni3S4(polydymite), NiFe2S4(violarite), Co3S4(linnaeite) are stable
88. FSlead-hP16
hP16;(high-chalcocite) Pearson = hP16; Space group = P63/mmc (194);
high-temperature Cu2S(chalcocite)
89. FSlead-hP3
hP3 Struktubericht = A3; Pearson = hP3; Space group = P-6m2 (187);
delta-CuZn3, zeta-AgCd and epsilon-AgCd3 are stable. Disordered.
90. FSlead-hP6
hP6;Prototype-Ni2Al Pearson = hP6; Space group = P-3m1 (164);
Ni2Al and Fe2Si are stable;
91. FSlead-hP8
hP8;Prototype-BaCu Pearson = hP8; Space group = P63/mmc (194);
BaCu, SrCu are stable
92. FSlead-hP9
hP9;Prototype-Sb2Te Pearson = hP9; Space group = P-3m1 (164);
beta-Bi2Te is stable
93. FSlead-hR15
hR15;Prototype-Bi2Te3; Pearson = hR15; Space group = R-3m (166);
Bi2Te3 is stable
94. FSlead-hR3
hR3;Prototype-"SbSn" Pearson = hR3; Space group = R-3m (166); [I]
"SbSn" with solubility for Pb, Bi
95. FSlead-i160
tI160;Prototype-Cd3As2 Pearson = tI160; Space group = I41cd (110);
alpha-Cd3As2 and alpha-Zn3As2 are stable
96. FSlead-L12c
L12-FCC!FCC-A1 Strukturbericht = L12; Pearson = cP4; Space group = Pm-3m (221); [J]
Ordered FCC phase Co3Pt, Co3Ti, Ni3Al, Ni3Fe, Ni3Si, Ni3Ge, Pt3Al, Pt3Co, Pt3In, Pt3Ni and Ag3Mg
97. FSlead-L12d
L12d;Prototype-AuCu3 Strukturbericht = L12; Pearson = cP4; Space group = Pm-3m (221); [I]
MgIn3, InMg3 and Ag3In are stable
98. FSlead-L12e
L12e;Prototype-AuCu3 Strukturbericht = L12; Pearson = cP4; Space group = Pm-3m (221); [I]
Pt3Ga, Pt3Ge, Ni3Ga are stable
99. FSlead-Liqu
Liquid metal [I]
Liquid metal [I]
100. FSlead-m12P
mP12;Prototype-Ag2S (acanthite) Pearson = mP12; Space group = P21/c (14);
Ag2S(acanthite) is stable, with Se and Cu solubility
101. FSlead-m28C
mS28;Prototype-Ni5Sb2 Pearson = mS28; Space group = C2 (5);
Ni5Sb2
102. FSlead-M3T2
M3T2; (Fe,Ni)3T2 Pearson = hR* (hR15?)
beta prime
103. FSlead-mC14
mS14;Prototype-Ni3Sn4 Pearson = mS14; Space group = C2/c(12)
Phase at ca.44 at.% Ni in the Ni-Sn system, with solubility for Cu
104. FSlead-mC28
mC28;Prototype-Zn13Co Pearson = mC28; Space group = C12/m (12); [I]
gamma2-CoZn13 and zeta-FeZn13 are stable;
105. FSlead-mP24
mP24;Prototype-ZnAs2 Pearson = mP24; Space group = P21/c (14);
ZnAs2, CdP2 and ZnP2 are stable;
106. FSlead-mS20
eta2;Prototype-AlCu Pearson = mS20; Space group = C2/m (12);
AlCu-eta(LT), InPt and theta-CuIn ('Cu11In9') are stable
107. FSlead-mS24
mS24;Prototype-SiAs Pearson = mS24; Space group = C2/m (12);
GeAs, GeP and SiAs are stable
108. FSlead-mS44
mS44;Prototype-Ni13Ga9 Pearson = mS44; Space group = C2/m (12);
Ni13Ga9, zeta'-Ni13In9 and Pt13In9 are stable
109. FSlead-o12I
o12I;Prototype-KHg2 Pearson = oI12; Space group = Imma (74);
alpha-Al2Sr, Ga2Sc, Cu2Pr, Cu2Sm, Zn2Ca are stable
110. FSlead-o12P
oP12;Prototype-Ag2Se (naumannite) Pearson = oP12; Space group = P212121 (19);
Ag2Se(naumannite) with Ag2S solubility
111. FSlead-o12S
oS12;(stromayerite) Pearson = oS12; Space group = Cmc21 (36);
high-temperature Cu2S(chalcocite)
112. FSlead-o16S
o16S;Prototype-Pt5Ga3 Pearson = oS16; Space group = Cmmm (65);
Pt5Ga3 and Ni5Ga3 are stable
113. FSlead-o20P
oP20;Prototype-Ni3Sn2 Pearson = oP20; Space group = Pnma (62);
Ni3Sn2(lt), Mn3Sn2 and Co3Sn2(lt) are stable
114. FSlead-o24P
o24P;Prototype-BaSi2 Pearson = oP24; Space group = Pnma (62);
BaSi2 and SrGe2 are stable
115. FSlead-oC68
oC68;Prototype-Ni9S8 (godlevskite) Pearson = oS68; Space group = C222 (21);
Godlevskite Ni9S8 with Fe solubility
116. FSlead-oD59
ordered-D59;Prototype-Zn3P2 Pearson = tP40; Space group = P42/nmc (137);
(Cd,Zn)3As2 ordered solid solution
117. FSlead-oP24
oP24;Prototype-GeAs2 Pearson = oP24; Space group = Pbam (55); [I]
GeAs2, SiP2 and SiAs2 are stable
118. FSlead-oP4a
oP4a;Prototype-Ag3Sb Pearson = oP4; Space group = Pmm2 (25);
Ag3Sb is stable
119. FSlead-oP52
oP52;Prototype-Ca7Sn6 Pearson = oP52; Space group = Pnma (62);
Ca7Ge6, Ca7Sn6 are at stable
120. FSlead-oS56
oS56;Prototype-Ni7S6 Pearson = oS56; Space group = Cmcm (63);
alpha-Ni7S6(ht) with Fe solubility
121. FSlead-oS8
oS8;Prototype-TlI Pearson = oS8; Space group = Cmcm (63);
CoY, GaCa, GaSc, GeSr, NiLa, NiZr and PbSr are stable
122. FSlead-p160
tP160;Prototype-Zn3As2 Pearson = tP160; Space group = P42/nbc (133);
alpha_prime-Cd3As2
123. FSlead-t12I
MAs2;Prototype-CdAs2 Pearson = tI12; Space group = I4122 (98);
CdAs2 dissolving ZnAs2
124. FSlead-tP3
tP3;Prototype-FeSi2 (ferdisilicite) Pearson = tP3; Space group = P4/mmm (123);
alpha-FeSi2(ht) stable above ~1223K with stoichiometry near Fe0.92Si2
125. FSlead-Vill
Villamaninite CuNi2S6
Villamaninite; (Cu,Ni,Co,Fe)S2 solid solution not stable in the Me-S binary systems
List of 415 Compounds
Ag | s1-s5,l | Ag11Hg15 | s | Ag11Hg9 | s |
Ag2Ba | s | Ag2Ba3 | s | Ag2Ca | s |
Ag2Ga | s | Ag2O | s | Ag2S | s1-s3 |
Ag2Se | s1,s2 | Ag2Sr | s | Ag2Sr3 | s |
Ag2Te | s1-s3 | Ag3Ca5 | s | Ag3CuS2 | s |
Ag3Ga2 | s | Ag3Sb | s | Ag4Sr | s |
Ag5Ba | s | Ag5Cu3S4 | s | Ag5Sr | s |
Ag5Sr3 | s | Ag5Te3 | s1,s2 | Ag7Ca2 | s |
Ag8SnS6 | s1,s2 | Ag9Ca2 | s | AgBa | s |
AgCa | s | AgCa3 | s | AgCd | s |
AgCuS | s | AgSr | s | As | s1-s5,l |
As2Cu5 | s | As2S3 | s | As2S5 | s |
As2Te3 | s | As4S3 | s1,s2 | As4S4 | s1,s2 |
AsCu8 | s | AsIn | s | Au | s1-s3,l |
Au2Bi | s | Au2Pb | s | Au3In | s |
Au4Zn5 | s | Au5Zn3 | s | Au7Ga2 | s |
Au7Ga3 | s | Au7In3 | s | Au8Ga2 | s |
AuGa | s | AuGa2 | s | AuIn | s |
AuIn2 | s | AuSb2 | s | AuSn | s |
AuSn2 | s | AuSn4 | s | AuTe2 | s |
AuZn3 | s | Ba | s1-s3,l | Ba10Ga | s |
Ba2Si | s | Ba2Zn | s | Ba3Si4 | s |
Ba5Ga6 | s | Ba5Si3 | s | Ba8Ga7 | s |
BaC2 | s1,s2 | BaCu | s | BaCu13 | s |
BaGa2 | s | BaGa4 | s | BaGe2 | s |
BaH2 | s1,s2 | BaSi | s | BaSi2 | s |
BaZn | s | BaZn13 | s | BaZn2 | s |
BaZn5 | s | Bi | s1-s4,l | Bi2S3 | s |
Bi2Te | s | Bi3In5 | s | Bi3Ni | s |
Bi4Te3 | s | BiIn | s | BiIn2 | s |
C | s1,s2,l | Ca | s1-s3,l | Ca11Ga7 | s |
Ca14Si19 | s | Ca2Cu | s | Ca2Ge | s |
Ca2Ni7 | s | Ca2Pb | s | Ca2Si | s |
Ca2Sn | s | Ca25Ga59 | s | Ca28Ga11 | s |
Ca3Ga5 | s | Ca3Ga8 | s | Ca3Si4 | s |
Ca3Zn | s | Ca5Ga3 | s | Ca5Ge3 | s |
Ca5Pb3 | s | Ca5Si3 | s | Ca5Zn3 | s |
Ca7Ge6 | s | Ca7Sn6 | s | CaC2 | s1-s4,l |
CaCu | s | CaCu5 | s | CaGa | s |
CaGa2 | s1,s2 | CaGa4 | s1,s2 | CaGe2 | s |
CaH2 | s | CaNi2 | s | CaNi3 | s |
CaNi5 | s | CaO | s | CaPb | s |
CaPb3 | s | CaS | s | CaSi | s |
CaSi2 | s | CaZn | s | CaZn11 | s |
CaZn13 | s | CaZn2 | s | CaZn3 | s |
CaZn5 | s | Cd | s1-s4,l | Cd10Cu3 | s |
Cd3As2 | s1-s4 | Cd3Cu4 | s | Cd3In | s |
Cd5Ni | s | Cd8Cu5 | s | CdAs2 | s |
CdCu2 | s | CdNi | s | CdS | s |
CdSb | s | Cu | s1-s4,l | Cu10Sn3 | s |
Cu11Fe2S13 | s | Cu15Si4 | s | Cu19Si6 | s |
Cu2O | s | Cu2S | s1-s4 | Cu2Sb | s |
Cu2Se | s1,s2 | Cu2SiS3 | s1,s2 | Cu2Te | s1-s6 |
Cu3As | s | Cu3FeS4 | s | Cu3FeS8 | s |
Cu3Ge | s | Cu3Sb | s1,s2 | Cu3Se2 | s |
Cu3Sn | s1,s2 | Cu33Si7 | s | Cu4Fe5S8 | s |
Cu4In | s | Cu4Sb | s | Cu4Sn | s |
Cu5Sr | s | Cu6Sb | s | Cu6Sn5 | s |
Cu7Ga2 | s | Cu7In3 | s | Cu7In4 | s |
Cu7S4 | s | Cu7Sb2 | s | Cu8SiS6 | s |
Cu9Fe8S16 | s | Cu9Fe9S16 | s | Cu9S8 | s |
Cu9Si2 | s | CuAsS | s | CuFe2S3 | s |
CuFeS2 | s | CuH | s | CuNi2S6 | s |
CuO | s | CuS | s | CuS2 | s1,s2 |
CuSe | s1-s3 | CuSe2 | s1,s2 | CuSr | s |
CuTe | s | Fe | s1-s7,l | Fe10S11 | s |
Fe11S12 | s | Fe2O3 | s | Fe2S | s1-s3 |
Fe2S3 | s | Fe2Si | s | Fe2SiS4 | s |
Fe3C | s1,s2 | Fe3C2 | s | Fe3O4 | s1-s4 |
Fe3S4 | s1,s2 | Fe3Si | s | Fe3Sn2 | s |
Fe5C2 | s1,s2 | Fe5Si3 | s1,s2 | Fe5Sn3 | s1-s3 |
Fe60Te71 | s | Fe7C3 | s | Fe7S6 | s |
Fe7S8 | s | Fe9S10 | s | Fe9S8 | s1,s2 |
FeS | s1,s2 | FeS2 | s1,s2 | FeSb | s |
FeSb2 | s | FeSe2 | s | FeSi | s1-s3 |
FeSi2 | s1-s3 | FeSn | s1,s2 | FeSn2 | s |
FeTe | s | FeTe2 | s1,s2 | Ga | s1-s5,l |
Ga2Cu | s | Ga2Te3 | s | Ga2Te5 | s |
Ga3Te4 | s | Ga4Cu9 | s | Ga6SnTe10 | s |
GaAs | s | GaSb | s | GaTe | s |
Ge | s1-s3,l | GeAs | s | GeAs2 | s |
GeCa | s | GeTe | s | H | s,l |
Hg | s1-s4,l | Hg3Zn | s | Hg6Cu7 | s |
HgPb2 | s | HgS | s1,s2 | HgSn38 | s |
HgSn4 | s | HgSn7 | s | HgZn2 | s |
HgZn3 | s | In | s1-s3,l | In2Ag | s |
In2Ca | s | In2Se3 | s1-s4 | In4Se3 | s |
In5Se7 | s | In6Se7 | s | In9Se11 | s |
InAg3 | s | InCa3 | s | InSb | s |
InSe | s | Ni | s1-s5,l | Ni11As8 | s |
Ni13Ga9 | s | Ni2Ga | s | Ni2Ga3 | s |
Ni2Ge | s1,s2 | Ni2In | s | Ni2In3 | s |
Ni2S | s | Ni2Si | s1,s2 | Ni2Te | s |
Ni20Te17 | s | Ni23C6 | s | Ni3Ga | s |
Ni3Ga4 | s | Ni3Ga7 | s | Ni3Ge | s |
Ni3In | s | Ni3In7 | s | Ni3S2 | s |
Ni3S4 | s | Ni3Sb | s1,s2 | Ni3Si | s1,s2 |
Ni3Si2 | s | Ni3Sn | s1,s2 | Ni3Sn2 | s |
Ni5As2 | s | Ni5Ga3 | s | Ni5Ge2 | s |
Ni5Ge3 | s | Ni5Sb2 | s | Ni5Si2 | s |
Ni52Te40 | s | Ni7S6 | s | Ni9S8 | s1,s2 |
NiAs | s | NiAs2 | s1,s2 | NiAsS | s |
NiFe2S4 | s | NiGa | s1,s2 | NiGe | s1,s2 |
NiIn | s | NiO | s | NiS | s1,s2 |
NiS2 | s | NiSb | s | NiSb2 | s |
NiSe2 | s | NiSi | s1,s2 | NiSi2 | s |
NiSn | s1,s2 | NiSr | s | NiTe | s |
NiTe2 | s | NiZn8 | s | Pb | s1-s7,l |
Pb2Au | s | Pb3Au | s | Pb3O4 | s |
Pb3Sr | s | Pb3Sr2 | s | Pb3Sr5 | s |
Pb4Sr5 | s | Pb5Sr3 | s | PbO | s1,s2 |
PbO2 | s | PbS | s | PbSe | s |
PbSr | s | PbSr2 | s | PbTe | s |
S | s1-s5,l | Sb | s1-s3,l | Sb2S3 | s |
Sb2Se3 | s | Sb2Sn3 | s | Sb2SnZn | s |
SbFe2 | s | SbNi2 | s | Se | s1,s2,l |
Si | s1-s7,l | Si2Te3 | s1,s2 | SiAs | s |
SiAs2 | s | SiC | s1-s6 | SiO2 | s1-s8 |
SiS | s | SiS2 | s | SiTe2 | s1,s2 |
Sn | s1-s5,l | Sn20Ca31 | s | Sn23Ca36 | s |
Sn3Ca | s | Sn3Ca5 | s | Sn3Sr | s |
Sn3Sr5 | s | Sn4As3 | s | Sn4Sr | s |
Sn5Sr3 | s | SnAg3 | s | SnAs | s |
SnCa | s | SnFe2 | s | SnNi2 | s |
SnS | s1,s2 | SnS2 | s | SnSe | s1,s2 |
SnSe2 | s | SnSr | s | SnSr2 | s |
SnTe | s | Sr | s1-s3,l | Sr13Cd58 | s |
Sr2Ge | s | Sr2Si | s | Sr5Cd3 | s |
Sr5Ge3 | s | Sr5Si3 | s | Sr8Ga7 | s |
SrC2 | s1,s2 | SrCd | s | SrCd11 | s |
SrCd2 | s | SrCd6 | s | SrGa2 | s |
SrGa4 | s | SrGe | s | SrGe2 | s |
SrH2 | s1,s2 | SrSi | s | SrSi2 | s1,s2 |
SrZn | s | SrZn13 | s | SrZn2 | s |
SrZn5 | s1,s2 | Te | s1,s2,l | Tl | s,l |
Zn | s1-s9,l | Zn3As2 | s1-s4 | Zn3Sb2 | s |
Zn4Sb3 | s1,s2 | Zn5Sb3 | s | ZnAs2 | s |
ZnO | s | ZnS | s1,s2 | ZnSb | s |
ZnTe | s |